CN110218797B - FGFR gene fusion probe, detection method and kit - Google Patents

Abstract

The invention relates to an FGFR gene fusion probe, a detection method and a kit. The invention provides a probe combination for detecting human FGFR gene fusion, which comprises the following probes: FGFR2 (NM _ 001144917): probe coverage of all exons and intron region No. 1, 15,17; FGFR3 (NM _ 000142): probe coverage of all exons, intron 17,18 and the 3' UTR region; probe coverage of intron region 11, 14 of FGFR3 chaperone gene TACC3 (NM — 006342). The invention also provides a kit for detecting FGFR gene fusion, in particular a kit for detecting FGFR gene fusion at one time and an automatic device for analyzing human gene FGFR gene fusion. The invention is suitable for the detection of a wide range of samples.

Description

FGFR gene fusion probe, detection method and kit

Technical Field

The invention belongs to the technical field of biological gene detection technology and biological information, and particularly relates to a capture probe design, a high throughput sequencing (NGS) experiment, a data analysis method and a kit for gene fusion detection.

Background

The Fibroblast Growth Factor Receptor (FGFR) family mainly includes 4 types of receptors FGFR1, FGFR2, FGFR3 and FGFR4, and plays an important role in angiogenesis, wound healing and embryonic development. FGFR is a transmembrane protein, with an extracellular domain, a transmembrane domain, and an cytoplasmic tyrosine kinase domain. Binding of FGF ligands to FGFR initiates a cascade of signaling events within the cell.

FGFR gene mutations, including gene fusions, cause a variety of disorders. The gene fusion belongs to one kind of gene variation, and refers to a chimeric gene formed by connecting end to end genes at different positions on two or more chromosomes due to chromosome structure distortion, including deletion, duplication, inversion, translocation and the like, and an expression product of the chimeric gene is a fusion protein. In gene fusion, the sequences of all or a part of two genes are fused to each other to form a novel gene. Gene fusions may be the result of chromosomal translocations, intermediate deletions, or chromosomal inversions. Certain kinases are the driver genes for cancer, and corresponding gene-targeted inhibitors have also been approved, including the inhibitor gleevec for BCR-ABL fusion; the inhibitors for ALK fusion, crizotinib (crizotinib), ai Leti-ni (alectinib), ceritinib (ceritinib), loratinib (loratinib); crizotinib (crizotinib), an inhibitor against ROS1 fusion; larotnectinib, an inhibitor of NTRK fusion. Traditional methods for detecting these gene fusions are usually FISH and IHC, but these fluxes are low and require separate design of kits for individual genes, and fused partner genes are often difficult to detect, thus also having limitations in clinical practice.

High throughput Sequencing technology is also called Next Generation Sequencing (NGS), and can perform Sequencing on hundreds of thousands to millions of molecules in a cellular genome at a time, so that the technology is widely applied to genome research. High-throughput sequencing enables rapid sequencing of a large number of sequences, can be used for gene mutation detection in different individuals, such as tumor patients, and provides beneficial advice and guidance for personalized therapy. NGS provides a high throughput, high accuracy and high sensitivity method for detecting fusion.

Disclosure of Invention

The invention provides a capture probe, a kit and a data analysis method which are used for detecting FGFR1, FGFR2 and FGFR3 gene fusion (especially human gene FGFR2/3 gene fusion) variation with high sensitivity and specificity. The detection kit can be used for various samples, such as tumor tissue biopsy samples, FFPE samples, liquid biopsy plasma, cfDNA and other different types of DNA samples. The method and the kit have high detection sensitivity and specificity and good repeatability, and provide a biomarker screening method for the clinical research of the FGFR inhibitor.

In some embodiments, the invention provides a probe combination for detecting a human gene FGFR1/2/3 gene fusion (in particular a human gene FGFR2/3 gene fusion) comprising probes of the FGFR2-COL14A1, FGFR3-TACC3, FGFR3-BAIAP2L1 fusion site, said probe combination comprising the following probes selected from the attached table one:

aiming at the polynucleotide sequence from the initial site 1729490 to the termination site 1729609 on the chromosome 4 where the human TACC3 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 501,

the probe sequence is SEQ ID No. 502 aiming at the polynucleotide sequence from the initial site 1729550 to the termination site 1729669 on the chromosome 4 of the human TACC3 gene or the complementary sequence thereof,

aiming at the polynucleotide sequence from the initial site 1729610 to the termination site 1729729 on the chromosome 4 where the human TACC3 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 503,

aiming at the polynucleotide sequence from the initial site 1729670 to the termination site 1729789 on the chromosome 4 where the human TACC3 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 504,

the probe sequence is SEQ ID No. 505 aiming at the polynucleotide sequence from the initial site 1729730 to the termination site 1729849 on the chromosome 4 where the human TACC3 gene is positioned or the complementary sequence thereof,

aiming at the polynucleotide sequence from the initial site 1729790 to the termination site 1729909 on the chromosome 4 where the human TACC3 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 506,

aiming at the polynucleotide sequence from the initial site 1808662 to the termination site 1808781 on the chromosome 4 where the human FGFR3 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 72,

the probe sequence is SEQ ID No. 79 aiming at the polynucleotide sequence from the initial site 1808782 to the termination site 1808901 on the No. 4 chromosome where the human FGFR3 gene is positioned or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 1808722 to a termination site 1808841 on a No. 4 chromosome where a human FGFR3 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 96,

aiming at the polynucleotide sequence from an initial site 1808692 to a termination site 1808811 on a No. 4 chromosome where a human FGFR3 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 269,

the probe sequence is SEQ ID No. 292 aiming at the polynucleotide sequence from the initial site 1808752 to the termination site 1808871 on the No. 4 chromosome where the human FGFR3 gene is positioned or the complementary sequence thereof,

aiming at the polynucleotide sequence from the initial site 1808812 to the termination site 1808931 on the No. 4 chromosome where the human FGFR3 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 275,

aiming at the polynucleotide sequence from an initial site 123241115 to a termination site 123241234 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 111,

the probe sequence is SEQ ID No. 158 aiming at the polynucleotide sequence from the initial site 123241175 to the termination site 123241294 on the chromosome 10 where the human FGFR2 gene is positioned or the complementary sequence thereof,

the probe sequence is SEQ ID No. 165 aiming at the polynucleotide sequence from the initial site 123241055 to the termination site 123241174 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof,

aiming at the polynucleotide sequence from the initial site 123240995 to the termination site 123241114 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 187,

aiming at the polynucleotide sequence from the initial site 123241295 to the termination site 123241414 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 193,

aiming at the polynucleotide sequence from an initial site 123241235 to a termination site 123241354 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 212,

aiming at the polynucleotide sequence from an initial site 123240965 to a termination site 123241084 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 295,

aiming at the polynucleotide sequence from an initial site 123241145 to a termination site 123241264 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 306,

the probe sequence is SEQ ID No. 352 aiming at the polynucleotide sequence from the initial site 123241205 to the termination site 123241324 on the chromosome 10 where the human FGFR2 gene is positioned or the complementary sequence thereof,

aiming at the polynucleotide sequence from the initial site 123241085 to the termination site 123241204 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 358,

the probe sequence is SEQ ID No. 380 aiming at the polynucleotide sequence from the initial site 123241025 to the termination site 123241144 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123241265 to a termination site 123241384 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 402,

aiming at the polynucleotide sequence from an initial site 123240935 to a termination site 123241054 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 100,

aiming at the polynucleotide sequence from an initial site 123242135 to a termination site 123242254 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 106,

the probe sequence is SEQ ID No. 109 aiming at the polynucleotide sequence from the initial site 123243095 to the termination site 123243214 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123240755 to a termination site 123240874 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 113,

aiming at the polynucleotide sequence from an initial site 123240815 to a termination site 123240934 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 114,

aiming at the polynucleotide sequence from an initial site 123240275 to a termination site 123240394 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 115,

aiming at the polynucleotide sequence from an initial site 123242195 to a termination site 123242314 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 121,

the probe sequence is SEQ ID No. 123 aiming at the polynucleotide sequence from the initial site 123240515 to the termination site 123240634 on the chromosome 10 where the human FGFR2 gene is positioned or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123241655 to a termination site 123241774 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 125,

aiming at the polynucleotide sequence from an initial site 123240335 to a termination site 123240454 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 128,

aiming at the polynucleotide sequence from the initial site 123240635 to the termination site 123240754 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 129,

aiming at the polynucleotide sequence from an initial site 123239735 to a termination site 123239854 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 131,

aiming at the polynucleotide sequence from the initial site 123240695 to the termination site 123240814 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 133,

the probe sequence is SEQ ID No. 137 aiming at the polynucleotide sequence from the initial site 123241595 to the termination site 123241714 on the No. 10 chromosome where the human FGFR2 gene is positioned or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123239495 to a termination site 123239614 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 138,

aiming at the polynucleotide sequence from an initial site 123239915 to a termination site 123240034 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 139,

the probe sequence is SEQ ID No. 143 aiming at the polynucleotide sequence from the initial site 123242735 to the termination site 123242854 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123242975 to a termination site 123243094 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 148,

aiming at the polynucleotide sequence from an initial site 123240455 to a termination site 123240574 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 149,

aiming at the polynucleotide sequence from an initial site 123240095 to a termination site 123240214 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 150,

the probe sequence is SEQ ID No. 151 aiming at the polynucleotide sequence from the initial site 123241895 to the termination site 123242014 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123240215 to a termination site 123240334 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 153,

the probe sequence is SEQ ID No. 156 aiming at the polynucleotide sequence from the initial site 123242675 to the termination site 123242794 on the chromosome 10 where the human FGFR2 gene is positioned or the complementary sequence thereof,

the probe sequence is SEQ ID No. 157 aiming at the polynucleotide sequence from the initial site 123239975 to the termination site 123240094 on the chromosome 10 where the human FGFR2 gene is positioned or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123240575 to a termination site 123240694 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 160,

aiming at the polynucleotide sequence from an initial site 123243035 to a termination site 123243154 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 163,

aiming at the polynucleotide sequence from an initial site 123239855 to a termination site 123239974 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 164,

the probe sequence is SEQ ID No. 167 aiming at the polynucleotide sequence from the initial site 123240155 to the termination site 123240274 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123239795 to a termination site 123239914 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 170,

aiming at the polynucleotide sequence from the initial site 123241775 to the termination site 123241894 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 171,

aiming at the polynucleotide sequence from the initial site 123242915 to the termination site 123243034 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 172,

aiming at the polynucleotide sequence from the initial site 123242615 to the termination site 123242734 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 175,

aiming at the polynucleotide sequence from the initial site 123241955 to the termination site 123242074 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 182,

aiming at the polynucleotide sequence from an initial site 123240875 to a termination site 123240994 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 183,

the probe sequence is SEQ ID No. 186 aiming at the polynucleotide sequence from the initial site 123239555 to the termination site 123239674 on the chromosome 10 where the human FGFR2 gene is positioned or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123242255 to a termination site 123242374 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 188,

aiming at the polynucleotide sequence from an initial site 123240395 to a termination site 123240514 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 195,

aiming at the polynucleotide sequence from the initial site 123239615 to the termination site 123239734 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 197,

aiming at the polynucleotide sequence from an initial site 123240035 to a termination site 123240154 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 199,

aiming at the polynucleotide sequence from an initial site 123242075 to a termination site 123242194 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 201,

aiming at the polynucleotide sequence from an initial site 123241835 to a termination site 123241954 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 202,

the probe sequence is SEQ ID No. 207 aiming at the polynucleotide sequence from the initial site 123241715 to the termination site 123241834 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123242015 to a termination site 123242134 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 208,

aiming at the polynucleotide sequence from an initial site 123242855 to a termination site 123242974 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 209,

the probe sequence is SEQ ID No. 215 aiming at the polynucleotide sequence from the initial site 123242555 to the termination site 123242674 on the No. 10 chromosome where the human FGFR2 gene is positioned or the complementary sequence thereof,

the probe sequence is SEQ ID No. 216 aiming at the polynucleotide sequence from the initial site 123239675 to the termination site 123239794 on the chromosome 10 where the human FGFR2 gene is positioned or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123242795 to a termination site 123242914 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 217,

aiming at the polynucleotide sequence from an initial site 123242165 to a termination site 123242284 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 301,

the probe sequence is SEQ ID No. 304 aiming at the polynucleotide sequence from the initial site 123243125 to the termination site 123243244 on the chromosome 10 where the human FGFR2 gene is positioned or the complementary sequence thereof,

the probe sequence is SEQ ID No. 308 aiming at the polynucleotide sequence from the initial site 123240785 to the termination site 123240904 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123240845 to a termination site 123240964 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 309,

aiming at the polynucleotide sequence from an initial site 123240305 to a termination site 123240424 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 310,

aiming at the polynucleotide sequence from an initial site 123242225 to a termination site 123242344 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 316,

aiming at the polynucleotide sequence from an initial site 123241685 to a termination site 123241804 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 319,

aiming at the polynucleotide sequence from the initial site 123240365 to the termination site 123240484 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 322,

aiming at the polynucleotide sequence from an initial site 123240665 to a termination site 123240784 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No: 323,

aiming at the polynucleotide sequence from an initial site 123239765 to a termination site 123239884 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 325,

aiming at the polynucleotide sequence from an initial site 123240725 to a termination site 123240844 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 327,

the probe sequence is SEQ ID No. 331 aiming at the polynucleotide sequence from the initial site 123241625 to the termination site 123241744 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof,

the probe sequence is SEQ ID No. 332 aiming at the polynucleotide sequence from the initial site 123239525 to the termination site 123239644 on the chromosome 10 where the human FGFR2 gene is positioned or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123239945 to a termination site 123240064 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 333,

aiming at the polynucleotide sequence from an initial site 123242765 to a termination site 123242884 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 337,

aiming at the polynucleotide sequence from an initial site 123243005 to a termination site 123243124 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 342,

aiming at the polynucleotide sequence from an initial site 123240485 to a termination site 123240604 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No: 343,

the probe sequence is SEQ ID No. 344 aiming at the polynucleotide sequence from the initial site 123240125 to the termination site 123240244 on the chromosome 10 where the human FGFR2 gene is positioned or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123241925 to a termination site 123242044 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 345,

the probe sequence is SEQ ID No. 347 aiming at the polynucleotide sequence from the initial site 123240245 to the termination site 123240364 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123242705 to a termination site 123242824 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 350,

aiming at the polynucleotide sequence from an initial site 123240005 to a termination site 123240124 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 351,

aiming at the polynucleotide sequence from an initial site 123243065 to a termination site 123243184 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 356,

aiming at the polynucleotide sequence from the initial site 123239885 to the termination site 123240004 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 357,

aiming at the polynucleotide sequence from an initial site 123240185 to a termination site 123240304 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 360,

aiming at the polynucleotide sequence from an initial site 123239825 to a termination site 123239944 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 363,

the probe sequence is SEQ ID No. 364 aiming at the polynucleotide sequence from the initial site 123241805 to the termination site 123241924 on the chromosome 10 where the human FGFR2 gene is positioned or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 123242945 to a termination site 123243064 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 365,

aiming at the polynucleotide sequence from an initial site 123242645 to a termination site 123242764 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 368,

aiming at the polynucleotide sequence from an initial site 123241985 to a termination site 123242104 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 375,

aiming at the polynucleotide sequence from an initial site 123240905 to a termination site 123241024 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 376,

aiming at the polynucleotide sequence from the initial site 123239585 to the termination site 123239704 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 379,

aiming at the polynucleotide sequence from the initial site 123240425 to the termination site 123240544 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 386,

aiming at the polynucleotide sequence from an initial site 123239645 to a termination site 123239764 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 387,

aiming at the polynucleotide sequence from the initial site 123240065 to the termination site 123240184 on the chromosome 10 where the human FGFR2 gene is positioned or the complementary sequence thereof, the probe sequence is SEQ ID No. 389,

aiming at the polynucleotide sequence from the initial site 123242105 to the termination site 123242224 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 391,

aiming at the polynucleotide sequence from an initial site 123241865 to a termination site 123241984 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 392,

aiming at the polynucleotide sequence from an initial site 123241745 to a termination site 123241864 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 397,

aiming at the polynucleotide sequence from an initial site 123242045 to a termination site 123242164 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 398,

aiming at the polynucleotide sequence from the initial site 123242885 to the termination site 123243004 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 399,

aiming at the polynucleotide sequence from an initial site 123242585 to a termination site 123242704 on a chromosome 10 where a human FGFR2 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 405,

the probe sequence is SEQ ID No. 406 aiming at the polynucleotide sequence from the initial site 123239705 to the termination site 123239824 on the chromosome 10 where the human FGFR2 gene is located or the complementary sequence thereof,

the probe sequence is SEQ ID No. 407 aiming at the polynucleotide sequence from the initial site 123242825 to the termination site 123242944 on the No. 10 chromosome where the human FGFR2 gene is located or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 1809043 to a termination site 1809162 on a No. 4 chromosome where a human FGFR3 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 74,

the probe sequence is SEQ ID No. 78 aiming at the polynucleotide sequence from the initial site 1809163 to the termination site 1809282 on the No. 4 chromosome where the human FGFR3 gene is located or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 1808983 to a termination site 1809102 on a No. 4 chromosome where a human FGFR3 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 82,

aiming at the polynucleotide sequence from the initial site 1809283 to the termination site 1809402 on the chromosome 4 where the human FGFR3 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 86,

the probe sequence is SEQ ID No. 91 aiming at the polynucleotide sequence from the initial site 1809223 to the termination site 1809342 on the No. 4 chromosome where the human FGFR3 gene is positioned or the complementary sequence thereof,

the probe sequence is SEQ ID No. 92 aiming at the polynucleotide sequence from the initial site 1809103 to the termination site 1809222 on the No. 4 chromosome where the human FGFR3 gene is positioned or the complementary sequence thereof,

the probe sequence is SEQ ID No. 97 aiming at the polynucleotide sequence from the initial site 1809343 to the termination site 1809462 on the No. 4 chromosome where the human FGFR3 gene is located or the complementary sequence thereof,

aiming at the polynucleotide sequence from an initial site 1809193 to a termination site 1809312 on a No. 4 chromosome where a human FGFR3 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 274,

aiming at the polynucleotide sequence from the initial site 1809013 to the termination site 1809132 on the No. 4 chromosome where the human FGFR3 gene is located or the complementary sequence thereof, the probe sequence is SEQ ID No. 278,

aiming at the polynucleotide sequence from an initial site 1809313 to a termination site 1809432 on a No. 4 chromosome where a human FGFR3 gene is located or a complementary sequence thereof, the probe sequence is SEQ ID No. 282,

the probe sequence is SEQ ID No. 287 aiming at the polynucleotide sequence from the initial site 1809253 to the termination site 1809372 on the chromosome 4 where the human FGFR3 gene is positioned or the complementary sequence thereof,

the probe sequence is SEQ ID No. 288 aiming at the polynucleotide sequence from the start site 1809133 to the end site 1809252 on the chromosome 4 where the human FGFR3 gene is located or the complementary sequence thereof.

In some embodiments, it has been found that the probe combinations of the invention are capable of detecting a broad range of FGFR1/2/3 (especially FGFR 2/3) gene fusions, including in particular, for example, FGFR2-COL14A1, FGFR3-TACC3 and FGFR3-BAIAP2L1 fusions, with high sensitivity and specificity. In some embodiments, it has been found that the probe combinations of the invention are capable of detecting a broad range of FGFR1/2/3 (especially FGFR 2/3) gene fusions, including, inter alia, ZNF198-FGFR1, FGFR2-BICC1 and FGFR3-WHSC1, with high sensitivity and specificity.

In some embodiments, the probe combinations for detecting human gene FGFR1/2/3 (especially FGFR 2/3) gene fusions of the present invention comprise probes selected from one or more of the following fusion genes against FGFR1 selected from the appended table: BAG4-FGFR1, FGFR1OP-FGFR1, FN1-FGFR1, CEP110-FGFR1, TPR-FGFR1, BCR-FGFR1, CPSF6-FGFR1, ERLIN2-FGFR1, FGFR1-TACC1, HERV-K-FGFR1, ACPP-FGFR1, CUX1-FGFR1, FGFR1-ADAM18, FGFR1-ADGRA2, FGFR1-CSMD1, FGFR1-LETM2, FGFR1OP2-FGFR1, FGFR1-TTLL1, FOXO1-FGFR1, LRP 1-FGFR1, MYO18A-FGFR1, NUP98-FGFR1, RAB11FIP1-FGFR1, RANBP2-FGFR1, RHOT 1-SQFGFR 1, STM1-FGFR1, TRIM24-FGFR1 and/or ZNF198-FGFR1.

In some embodiments, the probe combination for detecting FGFR1/2/3 (especially FGFR 2/3) gene fusions of the human genes of the present invention comprises probes selected from the following one or more fusion genes against FGFR2 selected from the accompanying table one: FGFR2-BICC1, FGFR2-KIAA1217, FGFR2-AHCYL1, FGFR2-CCDC6, FGFR2-NOL4, FGFR2-TACC2, FGFR2-KIAA1967, FGFR2-NPM1, FGFR2-NRAP, FGFR2-POC1B, FGFR-ARHGAP 24, FGFR2-CASP7, FGFR2-CIT, FGFR2-KIAA1598, FGFR2-LAMC1, FGFR2-MACF1, FGFR2-OFD1, FGFR2-PAWR, FGFR2-SHTN1, FGFR2-SPERT, FGFR2-TACC1 FGFR2-TACC3, FGFR2-WAC, AHCYL1-FGFR2, CCAR2-FGFR2, CCDC46-FGFR2, CTNNA3-FGFR2, DNM1-FGFR2, FGFR2-ACLY, FGFR2-AFF1, FGFR2-AFF3, FGFR2-AFR, FGFR2-AP1M1, FGFR2-ATF2, FGFR2-BFSP2, FGFR2-C10ORF118, FGFR2-C10ORF68, FGFR2-CBX5, FGFR2-CCAR2, FGFR2-CCDC158, AHCYL1-FGFR2, CCAR 2-ACR 2, and FGFR2-AFR 2 FGFR2-CCDC186, FGFR2-COL16A1, FGFR2-CTNNA3, FGFR2-EIF4A2, FGFR2-ENPP2, FGFR2-ETV6, FGFR2-FAM76A, FGFR-FILIP 1, FGFR2-FRK, FGFR2-GAB2, FGFR2-GOPC, FGFR2-KCNH7, FGFR2-KIF14, FGFR2-KLRAQ1, FGFR2-MGEA5, FGFR2-NCALD, FGFR2-NRBF2, FGFR 2-PPADPDC 1A, FGFR-PPHLN 1, and FGFR2-EIF 2 FGFR2-RABGAP1L, FGFR-RABPGAP 1L, FGFR-RASAL 2, FGFR2-RASSF4, FGFR2-ROCK1, FGFR2-SH3GLB, FGFR2-SHC2, FGFR2-SHROOM, FGFR2-SLMAP, FGFR2-SMN1, FGFR2-SOGA1, FGFR2-SORBS1, FGFR2-SPICE1, FGFR2-STRN4, FGFR2-TFEC, FGFR2-TNS1, FGFR2-TRA B, FGFR-TTC 28, FGFR2-USP10, FGFR2-VCL and/or FGFR2-ZYMY4.

In some embodiments, the probe combinations for detecting human gene FGFR1/2/3 (especially FGFR 2/3) gene fusions of the present invention comprise probes selected from the following one or more fusion genes against FGFR3 selected from the appended table: FGFR3-TACC3, FGFR3-BAIAP2L1, TACC3-FGFR3, FGFR3-JAKMIP1, FGFR3-TNIP2, FGFR3-WHSC1, FAM193A-FGFR3, FGFR3-ADD1, FGFR3-AES, FGFR3-AMBRA1, FGFR3-ELAVL3, FGFR3-FBXO28, FGFR3-MLLT10 and/or TEL/ETV6-FGFR3.

In some embodiments, the present invention provides a method of enriching for human gene FGFR1/2/3 (especially FGFR 2/3) gene fusion targets, the method comprising: extracting nucleic acids from a sample of a subject, constructing a nucleic acid library, and capturing human gene FGFR1/2/3 (especially FGFR 2/3) gene fusion targets using the probe combinations described herein, thereby enriching for human gene FGFR1/2/3 (especially FGFR 2/3) gene fusion targets.

In some embodiments, the methods of the invention can be used for a variety of samples, such as tissue biopsy samples, FFPE samples, DNA samples, and liquid biopsy plasma and cfDNA samples. In some embodiments, the subject is not particularly limited and may include, for example, a normal healthy subject, a subject suspected or diagnosed as having a disease, such as cancer. In some embodiments, the cancer related to the present invention is not particularly limited, and may be any cancer (including early, intermediate and late stage cancers) related to FGFR gene mutation (especially gene fusion), including, for example, solid tumors such as intrahepatic bile duct cancer and urothelial cancer, and the like, and various sample sources such as late stage (iiib-iv) intrahepatic bile duct cancer, and FGFR1/FGFR2/FGFR3 gene variation in circulating tumor DNA (ctDNA) extracted from, for example, neutral formalin-fixed paraffin-embedded (FFPE) tissue samples and plasma samples.

In some embodiments, the invention provides kits for detecting a human gene FGFR1/2/3 (especially FGFR 2/3) gene fusion comprising a capture reagent comprising a probe combination described herein. In some embodiments, the kits may include various reagents used in the methods of enriching for human gene FGFR1/2/3 (especially FGFR 2/3) gene fusion targets described herein.

In some embodiments, the human gene FGFR1/2/3 (especially FGFR 2/3) gene fusion can include FGFR2-COL14A1, FGFR3-TACC3, and FGFR3-BAIAP2L1.

In some embodiments, the kit further comprises one or more of: 1) a library preparation reagent such as DNA polymerase, ligase, buffer and/or quality control, 2) a capture reagent other than a probe such as a blocking agent, capture buffer and/or washing solution, 3) a solid support such as a magnetic bead, and/or 4) a high throughput sequencing reagent.

As understood by those skilled in the art, the term "probe" refers to a polynucleotide sequence of variable length that can be used for hybridization detection of identical, similar, or complementary nucleic acid sequences. The sequence used as detection probe may be labeled with a labeling group known in the art, such as a radioactive group, a fluorescent group, a chemiluminescent group, or an electrochemiluminescent group. Polynucleotide sequences are "complementary" in the sense that a sufficient number of matched base pairs in the sequence specifically hybridize to the target sequence being amplified or detected, and sequence complementarity does not necessarily require 100% matched base pairs. Thus, probes described herein encompass corresponding sequences that are not 100% paired with a target sequence, including, for example, sequences that are at least 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 98%, 99% identical to the target sequence or its complement. In some embodiments, the probes described herein encompass, for example, sequences that hybridize to a target sequence under stringent conditions. The term "hybridizes under stringent conditions" under conditions which allow hybridization and washing to hybridize under said conditions to each other of sequences which are at least 60% (65%, 70%, preferably 75%) identical to each other. Such stringent conditions are known to those skilled in the art and may, for example, refer to hybridization in 6X sodium chloride/sodium citrate (SSC) at about 45 ℃ followed by one or more washes with 0.2X SSC,0.1% SDS at 50-65 ℃. The term "hybridization" refers to the formation of complementary A-T and C-G base pairs between two polynucleotide sequences.

In some embodiments, the invention provides an automated apparatus for analyzing human gene FGFR1/2/3 (especially FGFR 2/3) gene fusions. In some embodiments, the automated device may comprise a library capture device that captures human gene FGFR1/2/3 (especially FGFR 2/3) gene fusion targets via a probe combination described herein. In some embodiments, the automated device may further comprise a high throughput sequencing device and/or a result analysis device. In some embodiments, the high throughput sequencing device is configured to determine the sequence of a human gene FGFR1/2/3 (in particular FGFR 2/3) gene fusion target captured by the library capture unit. In some embodiments, the result analysis device comprises:

a processor;

a memory having instructions stored thereon that, when executed by the processor, perform one or more of the following:

1) Obtaining human gene FGFR1/2/3 (especially FGFR 2/3) gene fusion sequencing data determined by the high-throughput sequencing device,

2) The following sequencing sequences were defined as inconsistent reads (discordant reads): the size of the insert is larger than 1000bp, or a pair of reads (reads) of double-end reads (pair end reads) are aligned on different chromosomes, or the direction of the alignment result is incorrect,

3) Defining that the CIGAR character string containing H and S in all the alignment results is a clipped read,

4) Extract all inconsistent reads (discordant reads) and their surrounding clip reads (clipped reads) and mark the source,

5) The above-mentioned reading is subjected to de-duplication,

6) Extracting 27-mers from the above results which are derived from reads of the same chromosome,

7) Filtering common 27-mers and blacklists of 27-mers, typically fused false-positive repeats on chromosomes

8) The reads obtained in the previous step, which contain the above 27-mers, are clustered using a merge algorithm, labeled as clusters (clusters)

9) Fermi-lite was used for local assembly,

10 ) re-aligning to the genome while filtering to retain only the candidate structural variation of the same chromosome,

11 Repeat 6) -9) steps for inconsistent reads (discordant reads) originating from different chromosomes and clipped reads (clipped reads) around them, preserving the candidate structural variations of the different chromosomes,

12 Combine the two results, filter the results that support few reads (support reads), and annotate.

Drawings

Fig. 1 is an example of a probe design method, wherein fig. 1a is an example of FGFR2 intron probe design: higher capture efficiency was achieved by designing 4x tilling probe coverage in the intron region; fig. 1b is a graph of improving the accuracy of FGFR3 fusion detection by designing probes in exon and intron regions of the fusion partner gene TACC 3.

Figure 2 shows the overall flow of an exemplary experiment.

Fig. 3 shows an exemplary bioinformation analysis flow.

Detailed Description

The invention aims to provide a probe sequence for detecting FGFR1/2/3 gene fusion and a distribution mode. The invention designs a specific primer aiming at FGFR1/2/3 gene, and finds that the primer can detect broad FGFR1/2/3 gene fusion with high sensitivity and specificity, particularly common FGFR1/2/3 gene fusion. In a further embodiment of the invention, the primer combination designed by the invention covers all FGFR1/2/3 gene fusions, thereby achieving the purpose of detecting all possible FGFR1/2/3 gene fusions at one time.

A target gene:

FGFR1 (NM _ 001174063): all exons and intron 4,5,7,9, 17;

FGFR2 (NM _ 001144917): all exons and introns No. 1, 15, 17;

FGFR3 (NM _ 000142): all exons as well as intron 17,18 and UTR 3';

probe coverage of intron region 11, 14 of FGFR3 chaperone gene TACC3 (NM — 006342).

Local area range: introns preceding the exon where the target gene portion occurs first in all possible fusion forms on the COSMIC.

Length of the probe: 120 nt, for the area with the length larger than the length of the probe, the target area is completely covered by adopting a probe overlapping mode, and the overlapping area of the probe is 60 nt. For regions of length less than the probe length, the target region is completely covered with a single probe, with the center position of the probe coinciding with the center position of the region. For the fusion hotspot region, higher capture efficiency was achieved by designing 4x tilling probe coverage in the intron region. Each probe was aligned to the whole genome by BLAST; performing score calculation on hit with the length of more than 60; each probe was scored for total according to the number of hit, with higher scores being less specific for the probe. Probes with a score greater than 2 were not considered. Probes in a single area a probe set with the lowest sum of all probe scores in the possible probe combinations for that area is identified. Regions of homologous repeats (e.g., SINE, LINE, LTR, etc.) were excluded from consideration for designing probes. For the genomic repeat region where FGFR is fused, it is difficult to directly design probes, and the accuracy of FGFR3 fusion detection is improved by designing probes in the exon and intron regions of a fusion partner (partner) gene, such as TACC 3. The appropriate probe combination was selected and verified and shown in the attached table one. An example of a probe design method is shown in figure 1.

The invention also provides a kit for detecting FGFR1/2/3 gene fusion, in particular to a kit for detecting FGFR1/2/3 gene fusion at one time. The kit is mainly used for detecting gene DNA variation, and exemplary components of the kit are shown in the table below.

Kits are exemplary compositions (a kit may include one or more reagents, described below, and may be placed in one or more packages).

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The method of the invention may comprise one or more of the following stages (and may include for each stage the corresponding reagents suitable for use in that stage, which may be selected by one skilled in the art and may include various commercial reagents or kits): nucleic acid extraction, library construction, library capture, computer sequencing and result analysis. The overall scheme of an exemplary experiment is shown in figure 2. Specific exemplary steps are detailed below:

(1) Extracting the double-stranded nucleic acid of the genome DNA in blood and tissue samples;

(2) Performing denaturation treatment on the DNA double-stranded nucleic acid in the step (1) to obtain a DNA single strand, and performing end repair, linkage and PCR amplification to build a library;

(3) After pooling, capturing said DNA library using the capture probe of claim;

(4) Performing on-line detection on an applicable machine type according to the requirements of the general kit for the sequencing reaction;

(5) And (3) automatically processing the sequenced data, removing background noise, and detecting the gene fusion of the sample according to the bioinformatics analysis method of the gene fusion.

The kit can theoretically detect the fusion of all known and unknown chaperone genes including FGFR1/2/3 genes, and the representative gene fusion information is shown in the table below.

The invention relates to a probe, a method and a product for detecting FGFR1/2/3 representative gene fusion.

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The invention also provides a bioinformatics analysis method for detecting FGFR1/2/3 gene fusion (including one-time detection of FGFR1/2/3 gene fusion), and a specific exemplary method is shown in figure 3.

The present invention has been shown to advantageously have one or more of the following effects:

1) The capture probe captures a coding exon region and an exon intron handover region of a genome target gene FGFR1/2/3 region of a human genome, and the specificity is high; reducing non-specific capture;

2) The initial amount of the sample is low, and the sensitivity is high; the gene mutation with the content as low as 2 percent in a 50ng fragmented DNA sample or the gene mutation with the content as low as 0.7 percent in a plasma sample can be detected;

3) The fusion method can be suitable for all FGFR1/2/3 gene fusions at present, does not limit the upstream or downstream of the fusion partner gene and which partner gene is, and can find unknown fusion breakpoints of known partner genes or completely unknown fusion types;

4) The sample types used are wide, including but not limited to solid tumor patients with neutral Formalin Fixed Paraffin Embedded (FFPE) tissue samples and plasma free DNA (cfDNA) extracted from plasma samples, which includes Circulating tumor DNA (ctDNA).

The following describes the test method of the invention in an exemplary manner in each of its five phases: nucleic acid extraction, library construction, library capture, computer sequencing and result analysis.

A. Nucleic acid extraction

1.1 Extracting and purifying the blood plasma sample nucleic acid by adopting a nucleic acid extraction kit according to the manufacturer instructions (recommending a nucleic acid extraction reagent, and details are shown in table 2), wherein the extracted blood plasma free DNA is hereinafter referred to as cfDNA (cell-free DNA);

1.2 Accurately quantitating the extracted cfDNA (it is recommended to use a Qubit fluorescence quantifier); (after the completion of this step, the experiment was interrupted and the extract was stored at-20. + -. 5 ℃ for a long period of time below-70 ℃)

B. Library construction

2. Preparation before experiment

2.1 Taking out the tail end repairing buffer solution, unfreezing at normal temperature, and placing the tail end repairing enzyme in an ice box for later use;

2.2 Preparing a sufficient amount of freshly prepared 80% ethanol for use (the total amount of freshly prepared 80% ethanol is prepared in 1mL per sample, e.g. 12 samples are pooled to prepare 12mL of 80% ethanol);

2.3 gDNA fragmentation (FFPE sample only): taking 50-500 ng gDNA into a 1.5ml centrifugal tube, supplementing less than 50 mu L of nuclease-free water to 50ul, and centrifuging for a short time after mixing uniformly; transferring 50 muL gDNA solution into a breaking pipe and placing the breaking pipe into an interrupting instrument, and selecting an interrupting program with the fragment length of 200-300bp to carry out gDNA fragmentation; (after the step is finished, the experiment can be interrupted, and the product is frozen at 20 +/-5 ℃ and stored for a long time below 70 ℃;

3. end repair

3.1 Adding the following components into a 0.2ml nuclease-free PCR reaction tube or an eight-connected tube (when a large number of samples exist, a mixed solution can be prepared for split charging);

3.2 Shaking and mixing, centrifuging for a short time, and running the following programs on a PCR instrument (the negative quality control substances and the positive quality control substances are synchronously operated with the sample from the step):

4. connection of

4.1 Taking out the reaction tube in the previous step, slightly shaking, uniformly mixing, centrifuging for a short time, and adding the following components into the reaction tube:

4.2 Shaking and mixing, and running the following program on a PCR instrument after short-time centrifugation:

4.3 Taking out the magnetic bead A, and balancing for 30min at room temperature for later use;

4.4 Taking out the reaction tube, adding 43 mu L of magnetic beads A, fully blowing and beating, transferring into a 1.5ml centrifuge tube, and incubating at room temperature for 5min;

4.5 Transferring the centrifugal tube to a magnetic frame, standing for 2min, and carefully sucking and removing supernatant after the solution is clarified;

4.6 Adding 200 μ L of 80% ethanol, covering the centrifugal tube cover, standing at room temperature for 30s, and carefully sucking off the supernatant;

4.7 Repeating the operation for 4.6 times to ensure that no liquid residue exists on the tube wall and the tube bottom;

4.8 Keeping the centrifuge tube on a magnetic frame, and drying at room temperature for 5min (the magnetic beads cannot be dried excessively);

4.9 Adding 21 mu L of enzyme-free water, shaking and resuspending, and standing at room temperature for 5min;

4.10 Transferring the centrifugal tube to a magnetic frame, standing at room temperature for 2min, and sucking 20 mu L of supernatant into a new 0.2ml PCR reaction tube;

5.PCR amplification

5.1 Selecting and recording corresponding sample labels, respectively and independently adding 5 mu L of sample labels into the PCR reaction tube, and marking;

5.2 Add 25. Mu.L of PCR reaction solution I, mix well, run the following program on the PCR instrument after a short centrifugation:

5.3 Taking out the PCR reaction tube, adding 50 mu L of magnetic beads A, fully blowing and beating, transferring into a 1.5ml centrifuge tube, uniformly mixing, and incubating at room temperature for 5min;

5.4 Transferring the centrifuge tube to a magnetic frame, standing at room temperature for 2min, and carefully sucking and removing the supernatant;

5.5 Adding 200 μ L80% ethanol, standing at room temperature for 1min, carefully sucking off the supernatant;

5.6 Repeating the operation for 5.5 times to ensure that no liquid residue exists on the tube wall and the tube bottom;

5.7 Keeping the centrifuge tube on a magnetic frame, and drying at room temperature for 5min (the magnetic beads cannot be dried excessively);

5.8 Adding 31 mu L of enzyme-free water, shaking for resuspension, and standing at room temperature for 5min;

5.9 Transferring the centrifuge tube to a magnetic frame, standing at room temperature for 2min, and sucking the supernatant into a new centrifuge tube of 1.5 ml;

5.10 accurate quantification of library nucleic acids (a Qubit fluorescence quantifier is recommended); (after the step is finished, the experiment can be interrupted, and the product can be stored at the temperature of minus 20 +/-5 ℃ for a long time below minus 70 ℃).

C. Library Capture

6. Capture

6.1 The DNA library was metered and mixed into a new 1.5ml centrifuge tube as follows:

1) Recommending that libraries of four different sample labels are mixed into a mixed library;

2) Libraries with similar concentrations are suggested to be arranged in a mixed library to avoid differences in hybridization efficiency;

3) The total amount of one mixed library is 1.6 mug, and the amount of each library is evenly distributed (if the number of samples is less than 4, the total amount of the mixed libraries is ensured to be 1.6 mug); respectively adding 5 mu L of sealant I and 2 mu L of sealant II into each mixed library, fully mixing, centrifuging for a short time, sealing the opening of a centrifugal tube by using a sealing film, pricking 5 small holes on the sealing film by using a clean gun head, putting into a vacuum concentration instrument, and vacuum-drying until no liquid residue exists;

6.2 Sequentially adding 8.5 muL of capture buffer solution, 2.7 muL of capture reinforcing agent and 3.8 muL of enzyme-free water into the drained mixed library, fully shaking and uniformly mixing, centrifuging for a short time, standing for 10min in a dark place at room temperature (shaking and centrifuging once during 5 min), and redissolving;

6.3 Transferring the liquid into a 0.2ml PCR reaction tube, and placing the tube in a PCR instrument for denaturation at 95 ℃ for 10min;

6.4 Taking out the PCR reaction tube, adding 2 μ L capture probe quickly, mixing well, centrifuging briefly, and incubating overnight at 65 deg.C in PCR instrument (overnight time is no more than 18 hr, hot cover set at 75 deg.C);

6.5 Taking a certain amount of magnetic bead washing liquid (2X), washing liquid I (10X), washing liquid II (10X), washing liquid III (10X) and washing liquid IV (10X), calculating the required amount as shown below, and diluting the required amount to the corresponding 1X working solution by using non-enzyme water for later use;

6.6 Taking a certain amount (calculating the required amount according to 100 mu L multiplied by the number of the mixed libraries) of 1 multiplied by washing liquid I and all 1 multiplied by washing liquid II from the diluted 1 multiplied by working solution in advance, and incubating for more than 2 hours at 65 ℃ in a metal bath for later use;

6.7 Taking the magnetic bead B in advance, and standing for 15-30min at room temperature;

6.8 Immediately taking out a certain amount (calculating the required amount according to 100 mu L multiplied by the number of the mixed libraries) of the magnetic beads B after shaking and resuspending to a new 1.5mL centrifuge tube, transferring to a magnetic frame, standing for 1min, and absorbing and discarding the supernatant;

6.9 Adding a 2-time volume of 1 multiplied by magnetic bead washing solution, fully shaking and resuspending, transferring to a magnetic frame after short-time centrifugation, standing for 1min, and sucking and discarding the supernatant;

6.10 Repeat 6.9 times;

6.11 Adding 1 times of volume of 1 times of magnetic bead washing solution, shaking for resuspension, and subpackaging into different 0.2mL PCR reaction tubes according to 100 mu L per tube;

6.12 Transferring the PCR reaction tube to a magnetic frame with the specification of 0.2ml, standing for 1min, carefully sucking and discarding supernatant to avoid the pipette tip from sucking magnetic beads;

6.13 Taking out the PCR reaction tube after overnight hybridization, transferring all the hybridization products into the PCR reaction tube containing the magnetic beads B, fully and uniformly mixing by vortex, then placing the mixture after short centrifugation on a PCR instrument, incubating the mixture for 45min at 65 ℃, and uniformly mixing by vortex once every 10min to avoid the magnetic beads from settling to the bottom;

6.14 After incubation, adding 100 mu L of 1 multiplied washing solution I preheated at 65 ℃ into each tube, transferring all the suspension into a 1.5mL centrifuge tube (placed on a 65-degree metal bath 5 minutes in advance), shaking and uniformly mixing, centrifuging for a short time, transferring to a magnetic frame, standing for 5s, and sucking and removing supernatant;

6.15 Adding 200 μ L of 1 × washing solution II preheated at 65 deg.C, shaking, mixing, centrifuging for a short time, incubating at 65 deg.C for 5min, transferring to magnetic frame, standing for 5s, and removing supernatant. Repeating the step once;

6.16 Adding 200 μ L of 1 × washing solution I, vortexing for 2min, centrifuging for a short time, standing on a magnetic frame, and removing the supernatant after magnetic beads are completely separated;

6.17 Adding 200 mu L of 1 Xwashing liquid III, whirling for 1min, centrifuging for a short time, standing on a magnetic frame, and removing the supernatant after magnetic beads are completely separated; adding 200 mu L of 1 Xwashing liquid IV, whirling for 30s, centrifuging for a short time, standing on a magnetic frame, and removing the supernatant after magnetic beads are completely separated;

6.18 Adding 18 mu L of enzyme-free water, shaking, resuspending, and transferring to 0.2mL PCR reaction tube;

6.19 Respectively adding 25 mul of PCR reaction solution and 5 mul of PCR primers into the PCR reaction tube, fully mixing, centrifuging for a short time, and then running the following programs on a PCR instrument:

6.20 And taking the magnetic bead A out of a four-degree refrigerator, and balancing for 30min at room temperature for later use. Taking out the PCR reaction tube after the PCR is finished, and transferring all products into a new 1.5mL centrifuge tube after the PCR reaction tube is centrifuged for a short time;

6.21 Adding 75 mu L of magnetic bead A, shaking and uniformly mixing, standing at room temperature for 10min, then centrifuging briefly, transferring to a magnetic frame, standing for 1min, and absorbing and removing the supernatant;

6.22 200 μ L of 80% ethanol was added, and after standing for 30 seconds, the supernatant was aspirated. Repeating the step once;

6.23 Opening the cover and drying until no liquid drops remain and the magnetic beads do not reflect light;

6.24 Adding 22 mu L of enzyme-free water, shaking the resuspended magnetic beads, carrying out short-time centrifugation, standing at room temperature for 5min, transferring to a magnetic frame, standing for 1min, and sucking 20 mu L of supernatant into a new 1.5mL centrifuge tube for later use;

6.25 1 μ L of the capture library was taken for accurate quantification (a Qubit fluorescence quantifier was recommended); (after the completion of this step, the experiment was interrupted, and the product was frozen at-20. + -. 5 ℃ C. And stored at-70 ℃ C. For a long period of time.)

D. Sequencing on computer

7. Sequencing on machine

7.1 Performing on-line detection on an applicable machine type according to the requirements of a general kit (sequencing method) for sequencing reaction (self-contained reagents, see table 2 for details);

E. analysis of results

8. Result acquisition and analysis

And transmitting the sequenced data to human FGFR1/2/3 mutation joint detection analysis software, and operating the software to perform comparison analysis to obtain a sample mutation result. The letter generation analysis process comprises the following specific steps:

8.1 The following sequencing sequences were defined as inconsistent reads: the size of the insert fragment is more than 1000bp, or a pair of reading numbers of the double-end reading numbers are aligned on different chromosomes, or the direction of the alignment result is incorrect,

8.2 Defining the CIGAR character string containing H and S in all the alignment results as a clipping reading

8.3 Extracting all inconsistent readings and their surrounding clipped readings and marking the source;

8.4 Removing the weight of the above readings

8.5 Extracting 27-mers from the same chromosome from the above results

8.6 Filtering common 27-mers and blacklisted 27-mers

8.7 The reading obtained in the last step and containing the 27-mer is clustered (cluster) by using a union-find algorithm, and the reading is marked as a cluster

8.8 Local Assembly Using fermi-lite software

8.9 Realigning to genome, and retaining only the alternate structural variation of the same chromosome

8.10 Repeating 8.5-8.9 steps for the inconsistency and clipping reading of different chromosomes in source, and retaining the alternate structural variation of different chromosomes

8.11 Combining, filtering and annotating the two results;

8.12 Reference genome and database, the current reference genome of the letter generation analysis process is based on USCS hg19, version No.: v1.0 (20-Mar-2009 version). The database includes:

1) Reference genome and common SNP 27-mer data files within a panel

2) 27-mer data files introduced by Experimental and sequencing Processes

3) Fusing the annotation files: GTF file converted by UCSC hgTables 2013-06-14 edition

9. And (3) judging the analysis result of the fusion data:

9.1 The analysis parameters were set as follows:

10. performance comparison analysis of fusion software:

10.1 Sample selection and experimental procedure:

the 75x2 samples tested using UDI were 10 in total, and three tools were each called SV. And (3) filtering conditions: autofusion takes the existing conditions. delly2 uses PASS and presise tag as filtering criteria, and requires a breakpoint distance of greater than 1000 at SV of DEL, INV type, and annotated filtering criteria are consistent with autofusion. BreakID does not require filtering conditions;

10.2 The experimental process comprises the following steps:

the downloaded version of the BreakID cannot be compiled, the header file and the compiling conditions can be modified and part of the code can be run after being modified, but all samples have no result. The final result is that all the filtered results are combined and read by IGV, and then the result is considered to be a true positive result; analysis of why BreakID was not positive: this tool relies on the SA tag of bwa mem; SA tags are required at two ends of the breakpoint, so that the requirement on the bwa version is very likely to exist, and the method is not compatible with the existing process;

10.3 The experimental results are as follows:

true positives 8, with 100% sensitivity and PPV for the current autofusion:

11. limit of detection (LOD) analysis

Using the FGFR1/2/3 fusion probe sequences covered by the targeted capture panel described in the attached Table, assays were performed using two cell lines, wherein A had FGFR2-COL14A1 and FGFR3-TACC3 fusions, and the other B had FGFR3-BAIAP2L1 fusions. The mixed gradients are shown below, with 15-20 samples of each gradient being unequal. Gradient concentrations were quantified by digital PCR:

the current fusion LOD is about 0.7% based on a 95% detection rate, and the detailed results are shown in the following table:

the specificity and sensitivity of the probe combination and the method for detecting FGFR gene fusion are obviously higher than those of the existing methods and probe combinations.

The detection limit performance of the present invention and prior art for detecting gene fusion is shown in the following table:

product name	Production plant Home-use	Fusion gene of claim Due to the fact that	Detection limit performance index
				Human 10 gene mutation joint detection kit (reversible end termination sequencing method)	Xiamen moxa De Er	ALK，ROS1,RET	The detected fusion of 30ng DNA sample is 1% of variation abundance
Human EGFR/ALK/BRAF/KRAS gene mutation joint detection kit (reversible terminal) End-stop sequencing method	Guangzhou burner Stone (stone)	ALK	The ALK fusion detection limit detected by 50ng of DNA sample is 10 percent of variation abundance
				EGFR/ALK/ROS1/BRAF/KRAS/HER2 gene mutation detection kit (reversible) End-stop sequencing method）	Nanjing world And	ALK，ROS1	ROS1 fusion detected by 250ng DNA sample is 1% of variation abundance, and ALK fusion is variation The abundance ratio is 2.5%
Human EGFR, KRAS, BRAF, PIK3CA, ALK, ROS1 gene mutation detection kit (semi-half) Conductor sequencing method	Tianjinuo Grain (standing grain)	ALK，ROS1	30ng of DNA detected with a fusion detection limit of 100 copies
				Human FGFR1/2/3 gene mutation joint detection kit (high-throughput sequencing method) (the invention) Invention)	Idea di	FGFR1,FGFR2, FGFR3	Detection limit of FGFR fusion detected by 30-60ng cfDNA or 50-200 ng gDNA The variation abundance is 0.7 percent

In conclusion, the invention provides a set of fusion capture probes for detecting human genes FGFR1, FGFR2 and FGFR3 by high-throughput sequencing, a detection method, a kit and application thereof, the performance is greatly improved, and the detection result shows that the detection system can accurately detect fusion variation of FGFR1/2/3 genes at one time, and the detection limit can be as low as 0.7%. Therefore, the method can also be widely applied to the detection of various samples, including tumor tissue biopsy samples, FFPE samples, DNA samples, liquid biopsy plasma and cfDNA samples.

Attached table-attached FGFR1/2/3 fusion probe sequence for targeted capture of panel coverage

Note: the genome data version number is UCSC hg19, and the corresponding genome version Genbank number is GCA _000001405.1.

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The exemplary embodiments of the present invention are illustrated by the above embodiments. The embodiments do not limit the technical solutions of the present invention. Those skilled in the art will understand that: modifications may be made to the above-described embodiments, or equivalents may be substituted for some or all of the features thereof. Such modifications or substitutions are intended to be within the scope of the present invention.

Sequence listing

<110> Shanghai thought Di medical laboratory Co., ltd

<120> FGFR gene fusion probe, detection method and kit

<130> IB191545

<160> 624

<170> PatentIn version 3.3

<210> 1

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 1

cttgtcagag ggcaccacag agtccattat gatgctccag gtggcataac ggacctgagg 60

ggaaatgcca aagggataca ttgagggtcc agaggaaaat gcaggcccca tgacaatgtc 120

<210> 2

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 2

ggaaatgcca aagggataca ttgagggtcc agaggaaaat gcaggcccca tgacaatgtc 60

ggcaccccgt ggcacctgcc ctccatatca gagcctggtg gcacagggcc ccaggctgca 120

<210> 3

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 3

ggcaccccgt ggcacctgcc ctccatatca gagcctggtg gcacagggcc ccaggctgca 60

gggttggcta ggacaaggcg tggattgccc ccctaccagc ccgttcacac tctgcaagct 120

<210> 4

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 4

gggttggcta ggacaaggcg tggattgccc ccctaccagc ccgttcacac tctgcaagct 60

ggcagatggg gtgtaaagac tccagaagtc tccactgtga cgttcaagat cattcgtgat 120

<210> 5

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 5

ggcagatggg gtgtaaagac tccagaagtc tccactgtga cgttcaagat cattcgtgat 60

ccggacagat gtgccttctg caaacactcc caaatacacc aagaatgttc ccaactgtgc 120

<210> 6

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 6

ccggacagat gtgccttctg caaacactcc caaatacacc aagaatgttc ccaactgtgc 60

acctctccta ttacactaag aatccagccc ccactgtcct tgacagctca tttcaaaaac 120

<210> 7

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 7

acctctccta ttacactaag aatccagccc ccactgtcct tgacagctca tttcaaaaac 60

catctcctcc agtccagtct ctggtcagaa ctgtgctcac cctttcctct ctgcctacca 120

<210> 8

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 8

catctcctcc agtccagtct ctggtcagaa ctgtgctcac cctttcctct ctgcctacca 60

aagcactgat cacagtctac tttttacggt agctgctcat ggacatttgc ctcctatcag 120

<210> 9

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 9

aagcactgat cacagtctac tttttacggt agctgctcat ggacatttgc ctcctatcag 60

actgcaaaat ttttatgggc aggaacgcta tcttgcagca tttaaagcat ggtgtcttgc 120

<210> 10

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 10

actgcaaaat ttttatgggc aggaacgcta tcttgcagca tttaaagcat ggtgtcttgc 60

atgtagtgag tgcatggtga attaatttaa aatatttctg gctgggtgcg gtggctcaag 120

<210> 11

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 11

gtgagactcc gtctaaaaaa aaaaaaaaaa tgcttacacc ctttaagtta gtaatttcac 60

ttgtaacaat ctgtcctaag gaagcacgct taaaaaaatg ctgacagaga ttcactgcaa 120

<210> 12

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 12

ttgtaacaat ctgtcctaag gaagcacgct taaaaaaatg ctgacagaga ttcactgcaa 60

cattatttat tatggtgaaa aaccagaaaa tacctaatat cacaaaatag ttcattaaat 120

<210> 13

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 13

gcccagccaa attatgggat tttaaaataa tggaatctta tacagtcatg aaaaattatg 60

tttcaaatat tcatgcttga aatatatcag gaaaagactc atgttaacaa atgacaaggc 120

<210> 14

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 14

tttcaaatat tcatgcttga aatatatcag gaaaagactc atgttaacaa atgacaaggc 60

aaggaaatta catacatgat gtgatcaact atgtaaaaac catattacag aaagaagact 120

<210> 15

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 15

aaggaaatta catacatgat gtgatcaact atgtaaaaac catattacag aaagaagact 60

gaagaaatgt ttaaacttta tttgcatttt tttgtattta aaaattttaa tgaataacct 120

<210> 16

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 16

gaagaaatgt ttaaacttta tttgcatttt tttgtattta aaaattttaa tgaataacct 60

gtataggtgg aaagtattac ttaaaaaaat gaaaagcatg taatcaggac ttcctaactc 120

<210> 17

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 17

gtataggtgg aaagtattac ttaaaaaaat gaaaagcatg taatcaggac ttcctaactc 60

ggcctcccct gttcccatta ctctaacttt cgcatgcaca cacacgtacc ttgtagcctc 120

<210> 18

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 18

acagagtggt ccaaagacca tggtaggcca ggaggcccaa cttctaggac tgacctattt 60

ctgccacaag ctggcctttc tggacttcac tcacctttaa aataagcaga ccaaatgcac 120

<210> 19

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 19

ctgtgcctgg cctatggccc cttctcttaa tcaccactca ctcacaactt cagtctgaag 60

taccatttgt aacacagcaa aaccgtgtcc ccgtgagtcc tcacatggat ccacacaaag 120

<210> 20

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 20

acgttgctct caaagcttat tacagaccag caccacccat ccctgcagcc ctctgttccc 60

agctcacctc cactttgtga cctctgttac tagtcctggg ggatgtggct agatccctac 120

<210> 21

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 21

ccactgcgcc cggccttctt tcccttttac aagtacagaa caagtggact tcaaaagtcc 60

aaagcatttg attaaaaaaa aaaaaaaaaa aaaagaatca ctgcttcaaa tggaatgttc 120

<210> 22

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 22

ccaaggaaca cacagaaggc agagagggaa cccacagaca ccaacacaat accaaaccaa 60

accagcctcc caggccgggt atttttccat ggctctgggc actagaaata cagtagggtg 120

<210> 23

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 23

cgaatgctgg aacaaaccaa cgacacacca gtcagttggg caaagctgag atgtggccac 60

gcacgttgct cccgtgtaac tttcaggcag gcccagggag cgaagggaga tgttaagtga 120

<210> 24

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 24

cgtaactcag gacacagggc taagactggg aaacgcttgg tggaaaggct ctggtttcgg 60

gcaatgaaaa ggcaggggtc caaatgcctt ccttgtgtag ctgaccccaa agccccagtg 120

<210> 25

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 25

acaactttcc cagcttctgg ttccttcctg ttgcgagatc cactggagat ttaggcaatt 60

accttccctg gattaatgga gcattcaggg acaatgaatg tctgggagtg agaggaaaaa 120

<210> 26

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 26

ccaatgacct acagagcagt tttagcacca gcagcaaaga gaagagaagg gagggccagt 60

atatctctga gacagctaag ctaggggagg atgaggtcta actctgggac aaagaggtaa 120

<210> 27

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 27

tcagggcttc ccaacaatgg cagaggcaca tgtctgtgta tctgatgttc tttcctcaac 60

acagagtggt ccaaagacca tggtaggcca ggaggcccaa cttctaggac tgacctattt 120

<210> 28

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 28

acctgagaag acgatggctg gttacgaccc ttcaccagat gctggcagcc actggcccat 60

ccgagcatgc gggcggtgag cggcatggag aaatggggcc ggcgggcagg ggctgtttgg 120

<210> 29

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 29

accttccctg gattaatgga gcattcaggg acaatgaatg tctgggagtg agaggaaaaa 60

ggaagaaaat gccattactc ctcgtcctca tatggcttag aatttatata tggcatttgt 120

<210> 30

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 30

ttttccaact cttcgtaaga gatgctctta tcatgcaccc catttgccag aaagatcgta 60

cgtaactcag gacacagggc taagactggg aaacgcttgg tggaaaggct ctggtttcgg 120

<210> 31

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 31

taccatttgt aacacagcaa aaccgtgtcc ccgtgagtcc tcacatggat ccacacaaag 60

ccaaggaaca cacagaaggc agagagggaa cccacagaca ccaacacaat accaaaccaa 120

<210> 32

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 32

tatttgtgtt taacccactc cctccaggac tggagcaggg gttgtgagtg gagacagtgg 60

ccaatgacct acagagcagt tttagcacca gcagcaaaga gaagagaagg gagggccagt 120

<210> 33

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 33

gagccacgca gactggttag cttcaccaat ataattggaa accttacaca catactcccc 60

gctctgggcc tctgtcacat tgaacagggt cagcacctcc gcatccgagc tattaatccc 120

<210> 34

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 34

gcaaggacag tccagtactg gcttccccgc ctgccccagc agcttggggc ctacatcaaa 60

tccccagcac agggtcccat ccatctcccc attacctttt gccacaggtc tggtgacagt 120

<210> 35

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 35

atctctttgt cggtggtatt aactccagca gtctagaaga gacaacggaa gcaaaatgga 60

caagcacagg acatgagacc tctaagagac gcagagcaag ggaaggagac agaaagaagg 120

<210> 36

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 36

tccccagcac agggtcccat ccatctcccc attacctttt gccacaggtc tggtgacagt 60

gagccacgca gactggttag cttcaccaat ataattggaa accttacaca catactcccc 120

<210> 37

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 37

tctaagcagc ccttggggac agttcaaatt catgctattg gctgcacatt ctgtccaaat 60

aggacttcct cccaatccat gtcccaggag tccggaggac ttgcagtgtg atatggaggg 120

<210> 38

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 38

gggactagag gaagaaatgc tccctgacat cttctttgca acaaggaaca aacgaaaacc 60

accaggcagc aaaacctgtt agaggaagag ggtgagaccc tgagggaaga actccggcag 120

<210> 39

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 39

gctctgggcc tctgtcacat tgaacagggt cagcacctcc gcatccgagc tattaatccc 60

cgaatgctgg aacaaaccaa cgacacacca gtcagttggg caaagctgag atgtggccac 120

<210> 40

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 40

tgcccacagg aacttgagcc cccgagacag tggtctcctt cccagtagac tggcccacga 60

agactggtgc catgattacc ttcaagatct ggacataagg caggttgtct gggccaatct 120

<210> 41

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 41

accagcctcc caggccgggt atttttccat ggctctgggc actagaaata cagtagggtg 60

gcaaggacag tccagtactg gcttccccgc ctgccccagc agcttggggc ctacatcaaa 120

<210> 42

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 42

acatgcacac gcatacacac acgcacatgt gcatacacag ccagcagatg cgagtatgca 60

agggaatgcc taaccccttc tctctctttt ttaagagatg gggtaccatt ctgtcaaccc 120

<210> 43

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 43

tcagccttcc cctcccctct taaacccaat gcccagaccc aaagggcagt aagataggaa 60

acagtgtctc acgcatacgg tttggtttgg tgttatctgt ttctttctcc tctgaagagg 120

<210> 44

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 44

ctgcccgggg aaagccaaga gagacaggca gggtggagag gagcagctgg tcaggctcag 60

gagcagggcc caggccagga cctggaggtg tcttgcccat ctgcccaaca cctgtgagca 120

<210> 45

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 45

ggaagaaaat gccattactc ctcgtcctca tatggcttag aatttatata tggcatttgt 60

ttttccaact cttcgtaaga gatgctctta tcatgcaccc catttgccag aaagatcgta 120

<210> 46

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 46

atggagaggg cagggcatta gaggcccaga gagagaggtg gtgctgagtg tgcaaatccc 60

ccatctactt tctgttacct gtctgcgcag agggatgctc ttggccagct tgtgcacagc 120

<210> 47

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 47

ctcttccagc ttgacatttt ataactgatc attgcagtaa caactctgtt ctcctgactc 60

tttgcaaata ctttgcctta gcttatggat tcctaactcc caaagcacct tccagaatga 120

<210> 48

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 48

agctcacctc cactttgtga cctctgttac tagtcctggg ggatgtggct agatccctac 60

tgagatggag tgtgtgtgcc tgaagcgtga ggaatgatcc cattcggggg caactgagcc 120

<210> 49

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 49

atatctctga gacagctaag ctaggggagg atgaggtcta actctgggac aaagaggtaa 60

acaactttcc cagcttctgg ttccttcctg ttgcgagatc cactggagat ttaggcaatt 120

<210> 50

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 50

gagcagggcc caggccagga cctggaggtg tcttgcccat ctgcccaaca cctgtgagca 60

gtgcctggca cttagcagaa caggcaccgt gaccccatgt gccctcctct tcctcccctt 120

<210> 51

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 51

tttgcaaata ctttgcctta gcttatggat tcctaactcc caaagcacct tccagaatga 60

gcacaggctt ctgagggaac ggtcattctt gcacacacct gtgccatctg taccatttcc 120

<210> 52

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 52

tgagatggag tgtgtgtgcc tgaagcgtga ggaatgatcc cattcggggg caactgagcc 60

tgcccacagg aacttgagcc cccgagacag tggtctcctt cccagtagac tggcccacga 120

<210> 53

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 53

gcacaggctt ctgagggaac ggtcattctt gcacacacct gtgccatctg taccatttcc 60

tcccgtgggg aagggtgggc acacagggga caagggtatg gtatggctga gatggtttgg 120

<210> 54

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 54

caagcacagg acatgagacc tctaagagac gcagagcaag ggaaggagac agaaagaagg 60

gggactagag gaagaaatgc tccctgacat cttctttgca acaaggaaca aacgaaaacc 120

<210> 55

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 55

accaggcagc aaaacctgtt agaggaagag ggtgagaccc tgagggaaga actccggcag 60

acctgagaag acgatggctg gttacgaccc ttcaccagat gctggcagcc actggcccat 120

<210> 56

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 56

tgcaggaaat tcacgggcta cactagcttg aaacagactc tagagcactt agttcatgat 60

attccactgt gccttgccca gaagccagaa aataaggccc aaagctataa attagggaca 120

<210> 57

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 57

cagcagtgtg aaaatggact aatacaaaca gttctcttct ctaccctgca tctctgcact 60

tctaagcagc ccttggggac agttcaaatt catgctattg gctgcacatt ctgtccaaat 120

<210> 58

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 58

tttcaggtaa agatagccag aaggtgaaca caggagggat ggcgggggct gcagacacac 60

acatgcacac gcatacacac acgcacatgt gcatacacag ccagcagatg cgagtatgca 120

<210> 59

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 59

ggccgaacca gaagaacccc agagttcatg gatgcactgg agtcagcaga cacctgcaag 60

gaagagtggg gtcaccctag agcaaggagg ggggacgggg tgactccttc ccattcttag 120

<210> 60

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 60

ctgtgatggg cgagaggaag cagcgatggg ccgggcccct cctccctgct cagggaggtg 60

cgtgcacgca gtggggacgg cctgagctct ggctctggca cgggcagcct tacctggttg 120

<210> 61

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 61

gcaatgaaaa ggcaggggtc caaatgcctt ccttgtgtag ctgaccccaa agccccagtg 60

acgttgctct caaagcttat tacagaccag caccacccat ccctgcagcc ctctgttccc 120

<210> 62

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 62

ctgccacaag ctggcctttc tggacttcac tcacctttaa aataagcaga ccaaatgcac 60

ctcttccagc ttgacatttt ataactgatc attgcagtaa caactctgtt ctcctgactc 120

<210> 63

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 63

ccgagcatgc gggcggtgag cggcatggag aaatggggcc ggcgggcagg ggctgtttgg 60

tttcaggtaa agatagccag aaggtgaaca caggagggat ggcgggggct gcagacacac 120

<210> 64

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 64

aggacttcct cccaatccat gtcccaggag tccggaggac ttgcagtgtg atatggaggg 60

tgcaggaaat tcacgggcta cactagcttg aaacagactc tagagcactt agttcatgat 120

<210> 65

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 65

gcacgttgct cccgtgtaac tttcaggcag gcccagggag cgaagggaga tgttaagtga 60

gatttattac ctttcccttt tagttttttt tttttttttt ttttttaacg cagagtctca 120

<210> 66

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 66

aaagcatttg attaaaaaaa aaaaaaaaaa aaaagaatca ctgcttcaaa tggaatgttc 60

tatttgtgtt taacccactc cctccaggac tggagcaggg gttgtgagtg gagacagtgg 120

<210> 67

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 67

gaagagtggg gtcaccctag agcaaggagg ggggacgggg tgactccttc ccattcttag 60

tcagggcttc ccaacaatgg cagaggcaca tgtctgtgta tctgatgttc tttcctcaac 120

<210> 68

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 68

gtgcctggca cttagcagaa caggcaccgt gaccccatgt gccctcctct tcctcccctt 60

tcagccttcc cctcccctct taaacccaat gcccagaccc aaagggcagt aagataggaa 120

<210> 69

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 69

attccactgt gccttgccca gaagccagaa aataaggccc aaagctataa attagggaca 60

atggagaggg cagggcatta gaggcccaga gagagaggtg gtgctgagtg tgcaaatccc 120

<210> 70

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 70

aaggtttatc ccgccgatag agggacggcc aagaatgtac gtccagcctg ccccggagct 60

ggaggatccc ctccaagcct aaaaggttgt taatagttgg aggtgattcc agtgaagata 120

<210> 71

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 71

tccagcattt agctggccac atggcggaga gttttaattt ttaacttatt gacaaccgag 60

aaggtttatc ccgccgatag agggacggcc aagaatgtac gtccagcctg ccccggagct 120

<210> 72

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 72

gtgagtgctg gctctggcct ggtgccaccc gcctatgccc ctccccctgc cgtccccggc 60

catcctgccc cccagagtgc tgaggtgtgg ggcgggcctt ctggggcaca gcctgggcac 120

<210> 73

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 73

ggaggatccc ctccaagcct aaaaggttgt taatagttgg aggtgattcc agtgaagata 60

ttttatttcc tttgtccttt ttcaggagaa ttagatttct ataggatttt tctttaggag 120

<210> 74

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 74

tggtgcacag ccactccccg gcatgagact cagtgcagat ggagagacag ctacacagag 60

ctttggtctg tgtgtgtgtg tgtgcgtgtg tgtgtgtgtg tgtgcacatc cgcgtgtgcc 120

<210> 75

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 75

tgtatttgtt gtagacttaa cacttcttac gcaatgcttc tagagtttta tagcctggac 60

tgctaccttt caaagcttgg agggaagccg tgaattcagt tggttcgttc tgtactgtta 120

<210> 76

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 76

cccatgcaag cagaggacca gggccttttc tggcaccgca gttttgtttt aaaactggac 60

ctgtatattt gtaaagctat ttatgggccc ctggcactct tgttcccaca ccccaacact 120

<210> 77

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 77

ggcaggcatg gccctgggcg gggcgtgggg gggcgtggag ggaggcccca gggggtctca 60

cccatgcaag cagaggacca gggccttttc tggcaccgca gttttgtttt aaaactggac 120

<210> 78

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 78

tgtgtgcgtg cgcatcttgc ctccaggtgc agaggtaccc tgggtgtccc cgctgctgtg 60

caacggtctc ctgactggtg ctgcagcacc gaggggcctt tgttctgggg ggacccagtg 120

<210> 79

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 79

agaggtggct gtgcgaagag gggctcggtg gcacagcgct caccccgcct cccgccagca 60

ggagtacctg gacctgtcgg cgcctttcga gcagtactcc ccgggtggcc aggacacccc 120

<210> 80

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 80

acccaaagct gagcctgcag ggaagcccca catgtccagc accttgtgcc tggggtgtta 60

gtggcaccgc ctccccacct ccaggctttc ccacttccca ccctgcccct cagagactga 120

<210> 81

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 81

ttttatttcc tttgtccttt ttcaggagaa ttagatttct ataggatttt tctttaggag 60

atttattttt tggacttcaa agcaagctgg tattttcata caaattcttc taattgctgt 120

<210> 82

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 82

gacgtgaagg gccactggtc cccaacaatg tgaggggtcc ctagcagccc accctgctgc 60

tggtgcacag ccactccccg gcatgagact cagtgcagat ggagagacag ctacacagag 120

<210> 83

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 83

ttattagatg ttacaagttt atatatatct atatatataa tttattgagt ttttacaaga 60

tgtatttgtt gtagacttaa cacttcttac gcaatgcttc tagagtttta tagcctggac 120

<210> 84

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 84

gtgtcccagg cagggagacg gtttccaggg aggggccggc cctgtgtgca ggttccgatg 60

ttattagatg ttacaagttt atatatatct atatatataa tttattgagt ttttacaaga 120

<210> 85

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 85

tgctaccttt caaagcttgg agggaagccg tgaattcagt tggttcgttc tgtactgtta 60

ctgggccctg agtctgggca gctgtccctt gcttgcctgc agggccatgg ctcagggtgg 120

<210> 86

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 86

cagaatgtaa gtgggcccac ccggtgggac ccccgtgggg cagggagctg ggcccgacat 60

ggctccggcc tctgcctttg caccacggga catcacaggg tgggcctcgg cccctcccac 120

<210> 87

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 87

tctcttcttg gggcccagtg catggtggcc agaggtgtca cccaaaccgg caggtgcgat 60

tttgttaacc cagcgacgaa ctttccgaaa aataaagaca cctggttgct aacctggccc 120

<210> 88

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 88

ctagtgtaca tttctataaa tagatgctgt gtatatggta tatatacata tatatatata 60

acatatatgg aagaggaaaa ggctggtaca acggaggcct gcgaccctgg gggcacagga 120

<210> 89

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 89

atttattttt tggacttcaa agcaagctgg tattttcata caaattcttc taattgctgt 60

gtgtcccagg cagggagacg gtttccaggg aggggccggc cctgtgtgca ggttccgatg 120

<210> 90

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 90

acatatatgg aagaggaaaa ggctggtaca acggaggcct gcgaccctgg gggcacagga 60

ggcaggcatg gccctgggcg gggcgtgggg gggcgtggag ggaggcccca gggggtctca 120

<210> 91

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 91

caacggtctc ctgactggtg ctgcagcacc gaggggcctt tgttctgggg ggacccagtg 60

cagaatgtaa gtgggcccac ccggtgggac ccccgtgggg cagggagctg ggcccgacat 120

<210> 92

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 92

ctttggtctg tgtgtgtgtg tgtgcgtgtg tgtgtgtgtg tgtgcacatc cgcgtgtgcc 60

tgtgtgcgtg cgcatcttgc ctccaggtgc agaggtaccc tgggtgtccc cgctgctgtg 120

<210> 93

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 93

ctgtatattt gtaaagctat ttatgggccc ctggcactct tgttcccaca ccccaacact 60

tccagcattt agctggccac atggcggaga gttttaattt ttaacttatt gacaaccgag 120

<210> 94

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 94

gtggcaccgc ctccccacct ccaggctttc ccacttccca ccctgcccct cagagactga 60

aattacgggt acctgaagat gggagccttt accttttatg caaaaggttt attccggaaa 120

<210> 95

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 95

aattacgggt acctgaagat gggagccttt accttttatg caaaaggttt attccggaaa 60

ctagtgtaca tttctataaa tagatgctgt gtatatggta tatatacata tatatatata 120

<210> 96

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 96

catcctgccc cccagagtgc tgaggtgtgg ggcgggcctt ctggggcaca gcctgggcac 60

agaggtggct gtgcgaagag gggctcggtg gcacagcgct caccccgcct cccgccagca 120

<210> 97

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 97

ggctccggcc tctgcctttg caccacggga catcacaggg tgggcctcgg cccctcccac 60

acccaaagct gagcctgcag ggaagcccca catgtccagc accttgtgcc tggggtgtta 120

<210> 98

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 98

ctgggccctg agtctgggca gctgtccctt gcttgcctgc agggccatgg ctcagggtgg 60

tctcttcttg gggcccagtg catggtggcc agaggtgtca cccaaaccgg caggtgcgat 120

<210> 99

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 99

aaagcaagaa aagtatgtgt gcagtgtgtg tgtgtgtaca cggtgtgtgt gcgtgcatgg 60

tgtgtgtgta tgcacggtgt gtgtgtgtac atggtgtgtg cgtgcacggt gtgtgcatgt 120

<210> 100

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 100

caaaaccctc taattcatca ccagggttgg caagagaaag agtccccatc ccagcatccc 60

agaaggggaa tgtatcagtt ccaacaacat cagcattaac cacacaactg gaaacaaaca 120

<210> 101

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 101

gcctgaaata tcctgttttt ctcccccttc tcggggcgct aaagagctca gagaaatctg 60

cattttaatt gacattccag ggaaagagag aggggcgcct gattgctttt ctattcaaac 120

<210> 102

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 102

ggcaactaca aaagcaagtt aaaaatgctc gggttggcat aaccaacctc gttcccttct 60

cttagtccaa ctgggcttta gaaagctaaa ctgttggagg agtctgctca cagctccgta 120

<210> 103

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 103

aaggagggtc tggagaacgg tctgcaaggg agcggggtgc gaggagagcg acggaggctg 60

gtggtccccg agcgggcctc ctgcgccagg tccgtggtcc gcgagggtcg gagccagcgc 120

<210> 104

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 104

gccctgagtt tgaaagcagg tttgccttta agggtaggtt ttattgaatt gggagaaagg 60

aaggagggtc tggagaacgg tctgcaaggg agcggggtgc gaggagagcg acggaggctg 120

<210> 105

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 105

ccacctgtcc ctgcccagag gagcctcctt ggctccaggc agagaaaggt ggacagggcg 60

ctccgctgaa tctcaagccg ttccatcatc ccgctagctg gcactagaaa tttgcatttc 120

<210> 106

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 106

tttctctatc ttaagatttg actagacttg atgggtttat catctttcct gctcagagca 60

tatgctttcc ataattataa aaggcactct atctgcatat tgaaggagcc actgacatgg 120

<210> 107

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 107

tcagaagata atttcggatc tatttctaca tacatgtggg aggaaagtac acaaacattc 60

tcattgattt actaagcatt tgcagaatgc aggggaattt tctacctcta acacgacttc 120

<210> 108

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 108

cttagtccaa ctgggcttta gaaagctaaa ctgttggagg agtctgctca cagctccgta 60

tttctgctgg gctggaggtg agcagtctcc caccctcact gtcgctcttg ggaagaaagg 120

<210> 109

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 109

agaataaaca agaccacaga ctccaaccaa cagccaacag gggagtgtgt gtgtaaaaca 60

ctacgcatgt ctcacaagac aaccaaggac aaggggcttc tagaaggaag ttcttacctc 120

<210> 110

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 110

tttctgctgg gctggaggtg agcagtctcc caccctcact gtcgctcttg ggaagaaagg 60

agaccagcaa aatcaaaaga atcccaggaa ggctacagaa aattcccacc agtttacact 120

<210> 111

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 111

aatggaaccg tttttcttga gcatatggta atgattttca gaaggaaaga aacttcgatt 60

tttatatcca ccagacaata tggcattctg cttttttatt ttagggtact agatacaaat 120

<210> 112

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 112

caagtgggat aaaaccattt ttcagcctct caaatgtgcg caaacagagt tctttttcat 60

tatctgctaa atccttccat cctcacctca gagtcccagg tgataccacc agaccggtcc 120

<210> 113

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 113

cagttctgct cacacatcca gaagccaaca actattctat gacatgtggt tttgctgaga 60

gggggcaaaa agtgcagacc acagcacaaa cagcctcagt gttatcagaa aagagcccat 120

<210> 114

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 114

gggggcaaaa agtgcagacc acagcacaaa cagcctcagt gttatcagaa aagagcccat 60

ggaatgttgg caactagaca tttttaaaga cacacacaca cacacacaca cacacacaca 120

<210> 115

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 115

agaaagtgtc ctttgctccc caaggcatcc agtgctggtg ctgcaaaaag ccctctggat 60

caccccaggg tgacacttcc tccgacttgg gtgcccacag acgactttgt atggcctgag 120

<210> 116

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 116

caaactttag agaatgatta aaacaatcac aagaaggggc tcatcaatct caggcttcag 60

attctgtgaa ccacaggaat gaaccacatt ttctaagact gggggtggca gggaggcctt 120

<210> 117

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 117

gtagcagagg cagaacttcc agaacgccgg ccgtcagcac gcacccacct cccccatcac 60

ctatgcagcc acagagggag gacacggagc gtcctccaca atgctagtcc ttccgcgccc 120

<210> 118

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 118

gtcaaggggt caaggctagg gggaaattcc tcaacaaatt gaaatctcaa aaaacacaca 60

ctgacccagg accacaaagc cctcccggtt taatgcttgc gtccaatcag aacttgcgag 120

<210> 119

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 119

ccttccgccc gtctgctctg gggtcggaga aacgcgccca gtcagcggga atgcgcccgc 60

cagggtttga cagggagggg ggcgtcaacg ccagaagcag atgtcagcat ctggatgggg 120

<210> 120

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 120

acattcccaa aacccccgcc ctccaagaag gcagaccaat acagtgccct ccgctttggg 60

cttccaccta aggggtgatc tgtccactgc tggctcggcc actgggatca cctggtgttt 120

<210> 121

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 121

tatgctttcc ataattataa aaggcactct atctgcatat tgaaggagcc actgacatgg 60

ctaaatttgc acagtgagtg acagacgagt gtttattttg ttggcaagga tcataaatta 120

<210> 122

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 122

attccaagca actttaaatt cactcagtac tctctgtgac taagggtaca gtaaaatgca 60

caaactttag agaatgatta aaacaatcac aagaaggggc tcatcaatct caggcttcag 120

<210> 123

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 123

gatccataaa attttactag aagacagact agaacacatc tatttacata ttgtctgtgg 60

ctactttgag gctacagtgg cgaagttgca acagagacca cagggccggc aaagctgaaa 120

<210> 124

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 124

ggggcacctc ggagatgacc ccgggaaccg gcctgcgggg ctgtgccacg ggcaggcgaa 60

ccttccgccc gtctgctctg gggtcggaga aacgcgccca gtcagcggga atgcgcccgc 120

<210> 125

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 125

tttcccagtt tctcaatgaa gccataaact ttcagatctg ataggaaaaa aacagggata 60

tcagtagatt ccaagtctac agttaaagga acttatacta gaaacaacaa ttttggcaga 120

<210> 126

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 126

ctccgctgaa tctcaagccg ttccatcatc ccgctagctg gcactagaaa tttgcatttc 60

agccatttcc aggtccaaac cccacggcag ccccctcccc aaaactctgg aaggcggaga 120

<210> 127

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 127

ggtccatttt cacctcggca caagcctgcc cccaaagaca ggcagagtga caagcaggaa 60

gggcttggct gcggagcggt ccccatgcca ggcctgtgct gggctcttca atttaccatg 120

<210> 128

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 128

caccccaggg tgacacttcc tccgacttgg gtgcccacag acgactttgt atggcctgag 60

ggctaaagat ggtctttaac attggtaagc ggttgaaaaa aaaaatcaaa agaagaagaa 120

<210> 129

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 129

atatttactc cctggccctt tacagaaagc agttgccgac ccctgttctg aagctatgaa 60

aagctttcta aattgggaac ttgtgggtct ctctgcctcc actgggctgg cacagtgggg 120

<210> 130

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 130

gtagctacag gactcagata cgtgcagcca cttcagtgag gcaatgtgtg ctctcttcta 60

ctatccacta tcgcctccac cgccctcaat gagcagaagc aacgtgacct tagtttcaag 120

<210> 131

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 131

cccacctgac ttccacgaag acctccctga gaccacgtct gatgtacccc aggctgtcct 60

tagcttttct cttggaatcc atcataaatc aactattgac aggtagagaa caataaaacc 120

<210> 132

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 132

tccatatgca aacctactgg ctaaattttc agagtataag ttagaagagg acactcaact 60

taatattctg ttcacccatt tgatccaagg gaaagagaat tttccaagaa agcttaatat 120

<210> 133

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 133

aagctttcta aattgggaac ttgtgggtct ctctgcctcc actgggctgg cacagtgggg 60

cagttctgct cacacatcca gaagccaaca actattctat gacatgtggt tttgctgaga 120

<210> 134

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 134

attctgtgaa ccacaggaat gaaccacatt ttctaagact gggggtggca gggaggcctt 60

taatacaaaa atctctaaac tctacatttt ttatgtaccc actcgatgtt tcaagttatg 120

<210> 135

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 135

cactaaagga aagagattgg cgagtcaggg aatcttcccc aatgccaaat cactccagcc 60

caagtgggat aaaaccattt ttcagcctct caaatgtgcg caaacagagt tctttttcat 120

<210> 136

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 136

accagggaga caatggagtt ttaaatgttg atagcgtttc acaccaaaca cataatgggt 60

gccctgagtt tgaaagcagg tttgccttta agggtaggtt ttattgaatt gggagaaagg 120

<210> 137

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 137

cctgcctcgg cctcccaaag tgctgggatt acaggcatga gccactgcgc ctgaccaact 60

tttcccagtt tctcaatgaa gccataaact ttcagatctg ataggaaaaa aacagggata 120

<210> 138

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 138

ggtgaatact gttcgagagg ttggctgagg tccaagtatt cctgaaagaa gggaagagag 60

acgttttatt tcatcttggg tcaggataac aaggtgaata cggttcgaga ggctgactga 120

<210> 139

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 139

gagtctacac cacctcctca ctagagccct tgcttcaaat gcgagcccca gcaaaatgaa 60

aaccggtaac atgttgtggg tccccagacc ccctttaagt agttgagact atgaatattt 120

<210> 140

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 140

gtggtccccg agcgggcctc ctgcgccagg tccgtggtcc gcgagggtcg gagccagcgc 60

cacgcagggc cctcggcttt tttccccagc gcggccccgt ggccgaaaaa aatgagcgcg 120

<210> 141

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 141

cgccgacggc ggctgcgggc gaggggcgcc caggcaccgg agccgtcgcc tccccagcag 60

tgccacccct ggccatcgcc acccctacgg gatgtcaccg gccccacccc agcggccccc 120

<210> 142

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 142

aataatgatg atgtaaatta tgtaaattat agtcatggta tgtgattgga ccaataactt 60

tccatatgca aacctactgg ctaaattttc agagtataag ttagaagagg acactcaact 120

<210> 143

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 143

acaggatcac ataggatagt actgtggtaa cagaagctgg tgttagaaaa cttcattgta 60

ttccatcaag caaatgatga cgaacattat cagtttaccc actaatgacc aaagcacaga 120

<210> 144

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 144

agccatttcc aggtccaaac cccacggcag ccccctcccc aaaactctgg aaggcggaga 60

cctaaggcga caggtctgca cagttcctca caccagtgga caaaagtatg gtgcgacctc 120

<210> 145

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 145

ctaggcagga taattaggtc cccaggctcg gtgttgggaa tacaggccca gcatgccgct 60

ggcggccaca atcccggctt cctgccttca ataccataat ccttcctgga gtctgagccc 120

<210> 146

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 146

ctatccacta tcgcctccac cgccctcaat gagcagaagc aacgtgacct tagtttcaag 60

ggcaactaca aaagcaagtt aaaaatgctc gggttggcat aaccaacctc gttcccttct 120

<210> 147

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 147

tgttcctggg tagatttcac atcaggaaag tcaacagtgt ccggctcctc caaagtgcag 60

acccatctct tcgcttaagg cctccctact tctccccagc actgagtagg agcgggagct 120

<210> 148

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 148

gcagcctcgg ggatgtccct ctgtctttgg tttcatgagt cagaactcac aaaatgaagt 60

tctgagaaaa atcatgattt gagaggaacc catagttgaa ctatctgacc ctatggaaaa 120

<210> 149

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 149

tatcttatag gattaaaatg aataaaattt atatacaatt atataaaatt ccaatttcag 60

gatccataaa attttactag aagacagact agaacacatc tatttacata ttgtctgtgg 120

<210> 150

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 150

cattcagtgg gtaatttaac agatgtaact gattactctc agaagctctc cgagttgaaa 60

atgtaaacag gttcaaaaaa ggcttagaca tactcatgta tgttaaatcc ataatgcact 120

<210> 151

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 151

ataagataaa gctgctgagc taagacttca tatcactaca tttgattatt actttttaaa 60

aaatcactct aaaactattt cctaaatcag aaattaagtg tattattttc cttctaaaat 120

<210> 152

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 152

agaccagcaa aatcaaaaga atcccaggaa ggctacagaa aattcccacc agtttacact 60

tgtcaggatt cattttcaaa tggagaagtg tctttcagtc ttccgccaag cagccactta 120

<210> 153

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 153

gttaaaggaa acttcaggaa aatatcggtt aagtttcaaa gttttgaagg ttcgagattc 60

agaaagtgtc ctttgctccc caaggcatcc agtgctggtg ctgcaaaaag ccctctggat 120

<210> 154

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 154

taaacaggct tttcagatga aaatgagtcg agcccggtgg aagatttaca gggatttggg 60

accagggaga caatggagtt ttaaatgttg atagcgtttc acaccaaaca cataatgggt 120

<210> 155

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 155

gaactagaaa aagtcggtcc agttcgcccc ctagccccag gcgcactgcg ctccctccag 60

cgccgacggc ggctgcgggc gaggggcgcc caggcaccgg agccgtcgcc tccccagcag 120

<210> 156

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 156

agaaaacagt gtatgtttat atacacctag aaagaggctg caaggcatat agcattacca 60

acaggatcac ataggatagt actgtggtaa cagaagctgg tgttagaaaa cttcattgta 120

<210> 157

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 157

aaccggtaac atgttgtggg tccccagacc ccctttaagt agttgagact atgaatattt 60

attttctgaa ttacatttta ctattgtagt ttcggggata attgaagggg aatacttctt 120

<210> 158

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 158

tttatatcca ccagacaata tggcattctg cttttttatt ttagggtact agatacaaat 60

ttcagtatca acggacccac tctacatgta aatatataaa taaatcactt tgagcataga 120

<210> 159

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 159

taatacaaaa atctctaaac tctacatttt ttatgtaccc actcgatgtt tcaagttatg 60

tcataggatt tcaacactgc tggagcctcc ccaaatctca tcataaaaac tgctcctttt 120

<210> 160

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 160

ctactttgag gctacagtgg cgaagttgca acagagacca cagggccggc aaagctgaaa 60

atatttactc cctggccctt tacagaaagc agttgccgac ccctgttctg aagctatgaa 120

<210> 161

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 161

tcattgattt actaagcatt tgcagaatgc aggggaattt tctacctcta acacgacttc 60

aggaacaatc ctaagtcctc gcagaggttt caccccaggc tccttccccg gcctgctcgc 120

<210> 162

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 162

ctatgcagcc acagagggag gacacggagc gtcctccaca atgctagtcc ttccgcgccc 60

cccgcccgga ggacggtgca cccggcgtcc cgggctcccg tggcgcccac gtccccggct 120

<210> 163

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 163

tctgagaaaa atcatgattt gagaggaacc catagttgaa ctatctgacc ctatggaaaa 60

agaataaaca agaccacaga ctccaaccaa cagccaacag gggagtgtgt gtgtaaaaca 120

<210> 164

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 164

tagttgagct ataggtgctg ggcaggcaac tcggcttcac acggacctaa ataacccgct 60

gagtctacac cacctcctca ctagagccct tgcttcaaat gcgagcccca gcaaaatgaa 120

<210> 165

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 165

cgcccaccac atcaaaagag aactttttgc ttacaatgat aaaaacgaaa ttttgtccta 60

aatggaaccg tttttcttga gcatatggta atgattttca gaaggaaaga aacttcgatt 120

<210> 166

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 166

cagggtttga cagggagggg ggcgtcaacg ccagaagcag atgtcagcat ctggatgggg 60

gtagcagagg cagaacttcc agaacgccgg ccgtcagcac gcacccacct cccccatcac 120

<210> 167

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 167

atgtaaacag gttcaaaaaa ggcttagaca tactcatgta tgttaaatcc ataatgcact 60

gttaaaggaa acttcaggaa aatatcggtt aagtttcaaa gttttgaagg ttcgagattc 120

<210> 168

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 168

acagaaatgt gtgaggctaa tctttttaaa agcatacttt taagaaacag agataaaaca 60

gtagctacag gactcagata cgtgcagcca cttcagtgag gcaatgtgtg ctctcttcta 120

<210> 169

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 169

gctttcagat agcttgaaag atttttcctc ttaacttttc tttcctctta gtcaagagcc 60

tcagaagata atttcggatc tatttctaca tacatgtggg aggaaagtac acaaacattc 120

<210> 170

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 170

tagcttttct cttggaatcc atcataaatc aactattgac aggtagagaa caataaaacc 60

tagttgagct ataggtgctg ggcaggcaac tcggcttcac acggacctaa ataacccgct 120

<210> 171

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 171

agaagaaagt tggtttcttc ccccccttga accgttcctt tcctttcaac ttctgaaggt 60

cagctgtatt catttaagtg caatctcttc ctttatccag cacaggccac agtcagacgc 120

<210> 172

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 172

gcttcccctt tcccactctc ccacataccc cggactgctc caccagcagc tacactgaag 60

gcagcctcgg ggatgtccct ctgtctttgg tttcatgagt cagaactcac aaaatgaagt 120

<210> 173

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 173

tgtcaggatt cattttcaaa tggagaagtg tctttcagtc ttccgccaag cagccactta 60

cgaagagtga acacaactgc agcgcattca acgcagctga tccaaaaagg acttcgaagc 120

<210> 174

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 174

gggcttggct gcggagcggt ccccatgcca ggcctgtgct gggctcttca atttaccatg 60

acattcccaa aacccccgcc ctccaagaag gcagaccaat acagtgccct ccgctttggg 120

<210> 175

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 175

ataaatattt taacaaaagg tacatgtttt tatgtaaaaa tcatgtaagt tgctcattgt 60

agaaaacagt gtatgtttat atacacctag aaagaggctg caaggcatat agcattacca 120

<210> 176

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 176

cccgcccgga ggacggtgca cccggcgtcc cgggctcccg tggcgcccac gtccccggct 60

ggcgaagctc cccgaggcgt cttgcgcggc gattaccttg aatggcaacg ctcctccgcg 120

<210> 177

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 177

caagttagaa ctcgcctgcg ctttcgacat ctcccagccg ctgcggcaga gcaggcaggc 60

gaactagaaa aagtcggtcc agttcgcccc ctagccccag gcgcactgcg ctccctccag 120

<210> 178

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 178

tatctgctaa atccttccat cctcacctca gagtcccagg tgataccacc agaccggtcc 60

acagaaatgt gtgaggctaa tctttttaaa agcatacttt taagaaacag agataaaaca 120

<210> 179

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 179

ctgacccagg accacaaagc cctcccggtt taatgcttgc gtccaatcag aacttgcgag 60

cagcttgggg gtgctcccca ccaccacccc ctttcagggc agcacttctt tcatttgttt 120

<210> 180

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 180

tgtgtgtgta tgcacggtgt gtgtgtgtac atggtgtgtg cgtgcacggt gtgtgcatgt 60

gctttcagat agcttgaaag atttttcctc ttaacttttc tttcctctta gtcaagagcc 120

<210> 181

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 181

acgcgggagg agttgtcacc ctccctctga tggatggctc ttctcggccg cccgcccccc 60

ggtccatttt cacctcggca caagcctgcc cccaaagaca ggcagagtga caagcaggaa 120

<210> 182

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 182

aaatcactct aaaactattt cctaaatcag aaattaagtg tattattttc cttctaaaat 60

acttggggga ctttaacttt tttcttgttg agacaattgc atggtttgga gttagtttcc 120

<210> 183

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 183

ggaatgttgg caactagaca tttttaaaga cacacacaca cacacacaca cacacacaca 60

caaaaccctc taattcatca ccagggttgg caagagaaag agtccccatc ccagcatccc 120

<210> 184

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 184

cattttaatt gacattccag ggaaagagag aggggcgcct gattgctttt ctattcaaac 60

taaacaggct tttcagatga aaatgagtcg agcccggtgg aagatttaca gggatttggg 120

<210> 185

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 185

tcccgaaaaa ggggtctccg cagggcctgg atggtacgga agttcccagg acacacggat 60

ggggcacctc ggagatgacc ccgggaaccg gcctgcgggg ctgtgccacg ggcaggcgaa 120

<210> 186

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 186

acgttttatt tcatcttggg tcaggataac aaggtgaata cggttcgaga ggctgactga 60

ggtccaagta ttcctgaaag aagggaagag aagagtttta tttcaaacac aaactcttga 120

<210> 187

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 187

agaaggggaa tgtatcagtt ccaacaacat cagcattaac cacacaactg gaaacaaaca 60

cgcccaccac atcaaaagag aactttttgc ttacaatgat aaaaacgaaa ttttgtccta 120

<210> 188

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 188

ctaaatttgc acagtgagtg acagacgagt gtttattttg ttggcaagga tcataaatta 60

ttattatttt ctttttgaga tgaagtcttg ctctgtctcc cagactggag tgcagtggcg 120

<210> 189

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 189

cacgcagggc cctcggcttt tttccccagc gcggccccgt ggccgaaaaa aatgagcgcg 60

caagttagaa ctcgcctgcg ctttcgacat ctcccagccg ctgcggcaga gcaggcaggc 120

<210> 190

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 190

aggaacaatc ctaagtcctc gcagaggttt caccccaggc tccttccccg gcctgctcgc 60

ccacctgtcc ctgcccagag gagcctcctt ggctccaggc agagaaaggt ggacagggcg 120

<210> 191

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 191

agctttgact gaggacaaaa atggaggagg gaaaagaata tgccacatca tttccaaagg 60

aggaataaag aaaacctctg cttcaaagat agcacaggtg aaacggtgtg attcacagca 120

<210> 192

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 192

ctgaattccc ttcccctgtg actaaatggc agtccagggc tgctaaatgt cttcaacctc 60

tgtagaaggg tgaggaaact gagcagatgc aaattctgat gaataatgca ggaatttatt 120

<210> 193

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 193

catgagatca ttaaaataga actttagtgc ttttcccggt ttctttcttt tttattttta 60

tttttttttt ttttgagacg gagtctcgct ctgtcgccaa ggctggaatg caatggcatg 120

<210> 194

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 194

cagcttgggg gtgctcccca ccaccacccc ctttcagggc agcacttctt tcatttgttt 60

gcctgaaata tcctgttttt ctcccccttc tcggggcgct aaagagctca gagaaatctg 120

<210> 195

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 195

ggctaaagat ggtctttaac attggtaagc ggttgaaaaa aaaaatcaaa agaagaagaa 60

tatcttatag gattaaaatg aataaaattt atatacaatt atataaaatt ccaatttcag 120

<210> 196

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 196

aggaataaag aaaacctctg cttcaaagat agcacaggtg aaacggtgtg attcacagca 60

aaagcaagaa aagtatgtgt gcagtgtgtg tgtgtgtaca cggtgtgtgt gcgtgcatgg 120

<210> 197

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 197

ggtccaagta ttcctgaaag aagggaagag aagagtttta tttcaaacac aaactcttga 60

gatgtgggta ttggacgtgg gacaggacag gagaccccta gaaggtgaac agagacccag 120

<210> 198

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 198

cagtgaaagc cccagcgtgt ttatttttcc ccttgaaagg gaactctctt ctcagcctgc 60

acgcgggagg agttgtcacc ctccctctga tggatggctc ttctcggccg cccgcccccc 120

<210> 199

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 199

attttctgaa ttacatttta ctattgtagt ttcggggata attgaagggg aatacttctt 60

cattcagtgg gtaatttaac agatgtaact gattactctc agaagctctc cgagttgaaa 120

<210> 200

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 200

cttccaccta aggggtgatc tgtccactgc tggctcggcc actgggatca cctggtgttt 60

tgttcctggg tagatttcac atcaggaaag tcaacagtgt ccggctcctc caaagtgcag 120

<210> 201

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 201

tgtgtaaaag aacactattg tgcatcctca ttaaatatct caaaatacat tcattaacaa 60

tttctctatc ttaagatttg actagacttg atgggtttat catctttcct gctcagagca 120

<210> 202

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 202

cagctgtatt catttaagtg caatctcttc ctttatccag cacaggccac agtcagacgc 60

ataagataaa gctgctgagc taagacttca tatcactaca tttgattatt actttttaaa 120

<210> 203

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 203

cctaaggcga caggtctgca cagttcctca caccagtgga caaaagtatg gtgcgacctc 60

ctaggcagga taattaggtc cccaggctcg gtgttgggaa tacaggccca gcatgccgct 120

<210> 204

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 204

acccatctct tcgcttaagg cctccctact tctccccagc actgagtagg agcgggagct 60

gtcaaggggt caaggctagg gggaaattcc tcaacaaatt gaaatctcaa aaaacacaca 120

<210> 205

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 205

ggcggccaca atcccggctt cctgccttca ataccataat ccttcctgga gtctgagccc 60

cagtgaaagc cccagcgtgt ttatttttcc ccttgaaagg gaactctctt ctcagcctgc 120

<210> 206

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 206

cgaagagtga acacaactgc agcgcattca acgcagctga tccaaaaagg acttcgaagc 60

ctgaattccc ttcccctgtg actaaatggc agtccagggc tgctaaatgt cttcaacctc 120

<210> 207

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 207

tcagtagatt ccaagtctac agttaaagga acttatacta gaaacaacaa ttttggcaga 60

agaagaaagt tggtttcttc ccccccttga accgttcctt tcctttcaac ttctgaaggt 120

<210> 208

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 208

acttggggga ctttaacttt tttcttgttg agacaattgc atggtttgga gttagtttcc 60

tgtgtaaaag aacactattg tgcatcctca ttaaatatct caaaatacat tcattaacaa 120

<210> 209

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 209

atcaaacttg cacaggaatc caagcttttt cccatgcaca ccaaaatgca agtgaatact 60

gcttcccctt tcccactctc ccacataccc cggactgctc caccagcagc tacactgaag 120

<210> 210

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 210

tgtagaaggg tgaggaaact gagcagatgc aaattctgat gaataatgca ggaatttatt 60

aataatgatg atgtaaatta tgtaaattat agtcatggta tgtgattgga ccaataactt 120

<210> 211

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 211

tcataggatt tcaacactgc tggagcctcc ccaaatctca tcataaaaac tgctcctttt 60

agctttgact gaggacaaaa atggaggagg gaaaagaata tgccacatca tttccaaagg 120

<210> 212

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 212

ttcagtatca acggacccac tctacatgta aatatataaa taaatcactt tgagcataga 60

catgagatca ttaaaataga actttagtgc ttttcccggt ttctttcttt tttattttta 120

<210> 213

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 213

tgccacccct ggccatcgcc acccctacgg gatgtcaccg gccccacccc agcggccccc 60

tcccgaaaaa ggggtctccg cagggcctgg atggtacgga agttcccagg acacacggat 120

<210> 214

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 214

taatattctg ttcacccatt tgatccaagg gaaagagaat tttccaagaa agcttaatat 60

attccaagca actttaaatt cactcagtac tctctgtgac taagggtaca gtaaaatgca 120

<210> 215

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 215

ccctcctcgg cttcccaaaa tgctgggatt acaggcgaga gcataaatat tttagggaaa 60

ataaatattt taacaaaagg tacatgtttt tatgtaaaaa tcatgtaagt tgctcattgt 120

<210> 216

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 216

gatgtgggta ttggacgtgg gacaggacag gagaccccta gaaggtgaac agagacccag 60

cccacctgac ttccacgaag acctccctga gaccacgtct gatgtacccc aggctgtcct 120

<210> 217

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 217

ttccatcaag caaatgatga cgaacattat cagtttaccc actaatgacc aaagcacaga 60

atcaaacttg cacaggaatc caagcttttt cccatgcaca ccaaaatgca agtgaatact 120

<210> 218

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 218

ggaggcccaa cttctaggac tgacctattt ctgccacaag ctggcctttc tggacttcac 60

tcacctttaa aataagcaga ccaaatgcac ctcttccagc ttgacatttt ataactgatc 120

<210> 219

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 219

tcaccactca ctcacaactt cagtctgaag taccatttgt aacacagcaa aaccgtgtcc 60

ccgtgagtcc tcacatggat ccacacaaag ccaaggaaca cacagaaggc agagagggaa 120

<210> 220

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 220

caccacccat ccctgcagcc ctctgttccc agctcacctc cactttgtga cctctgttac 60

tagtcctggg ggatgtggct agatccctac tgagatggag tgtgtgtgcc tgaagcgtga 120

<210> 221

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 221

aagtacagaa caagtggact tcaaaagtcc aaagcatttg attaaaaaaa aaaaaaaaaa 60

aaaagaatca ctgcttcaaa tggaatgttc tatttgtgtt taacccactc cctccaggac 120

<210> 222

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 222

cccacagaca ccaacacaat accaaaccaa accagcctcc caggccgggt atttttccat 60

ggctctgggc actagaaata cagtagggtg gcaaggacag tccagtactg gcttccccgc 120

<210> 223

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 223

gtcagttggg caaagctgag atgtggccac gcacgttgct cccgtgtaac tttcaggcag 60

gcccagggag cgaagggaga tgttaagtga gatttattac ctttcccttt tagttttttt 120

<210> 224

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 224

aaacgcttgg tggaaaggct ctggtttcgg gcaatgaaaa ggcaggggtc caaatgcctt 60

ccttgtgtag ctgaccccaa agccccagtg acgttgctct caaagcttat tacagaccag 120

<210> 225

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 225

ttgcgagatc cactggagat ttaggcaatt accttccctg gattaatgga gcattcaggg 60

acaatgaatg tctgggagtg agaggaaaaa ggaagaaaat gccattactc ctcgtcctca 120

<210> 226

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 226

gcagcaaaga gaagagaagg gagggccagt atatctctga gacagctaag ctaggggagg 60

atgaggtcta actctgggac aaagaggtaa acaactttcc cagcttctgg ttccttcctg 120

<210> 227

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 227

tgtctgtgta tctgatgttc tttcctcaac acagagtggt ccaaagacca tggtaggcca 60

ggaggcccaa cttctaggac tgacctattt ctgccacaag ctggcctttc tggacttcac 120

<210> 228

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 228

ttcaccagat gctggcagcc actggcccat ccgagcatgc gggcggtgag cggcatggag 60

aaatggggcc ggcgggcagg ggctgtttgg tttcaggtaa agatagccag aaggtgaaca 120

<210> 229

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 229

acaatgaatg tctgggagtg agaggaaaaa ggaagaaaat gccattactc ctcgtcctca 60

tatggcttag aatttatata tggcatttgt ttttccaact cttcgtaaga gatgctctta 120

<210> 230

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 230

tcatgcaccc catttgccag aaagatcgta cgtaactcag gacacagggc taagactggg 60

aaacgcttgg tggaaaggct ctggtttcgg gcaatgaaaa ggcaggggtc caaatgcctt 120

<210> 231

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 231

ccgtgagtcc tcacatggat ccacacaaag ccaaggaaca cacagaaggc agagagggaa 60

cccacagaca ccaacacaat accaaaccaa accagcctcc caggccgggt atttttccat 120

<210> 232

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 232

tggagcaggg gttgtgagtg gagacagtgg ccaatgacct acagagcagt tttagcacca 60

gcagcaaaga gaagagaagg gagggccagt atatctctga gacagctaag ctaggggagg 120

<210> 233

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 233

ataattggaa accttacaca catactcccc gctctgggcc tctgtcacat tgaacagggt 60

cagcacctcc gcatccgagc tattaatccc cgaatgctgg aacaaaccaa cgacacacca 120

<210> 234

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 234

ctgccccagc agcttggggc ctacatcaaa tccccagcac agggtcccat ccatctcccc 60

attacctttt gccacaggtc tggtgacagt gagccacgca gactggttag cttcaccaat 120

<210> 235

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 235

gtctagaaga gacaacggaa gcaaaatgga caagcacagg acatgagacc tctaagagac 60

gcagagcaag ggaaggagac agaaagaagg gggactagag gaagaaatgc tccctgacat 120

<210> 236

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 236

attacctttt gccacaggtc tggtgacagt gagccacgca gactggttag cttcaccaat 60

ataattggaa accttacaca catactcccc gctctgggcc tctgtcacat tgaacagggt 120

<210> 237

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 237

catgctattg gctgcacatt ctgtccaaat aggacttcct cccaatccat gtcccaggag 60

tccggaggac ttgcagtgtg atatggaggg tgcaggaaat tcacgggcta cactagcttg 120

<210> 238

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 238

cttctttgca acaaggaaca aacgaaaacc accaggcagc aaaacctgtt agaggaagag 60

ggtgagaccc tgagggaaga actccggcag acctgagaag acgatggctg gttacgaccc 120

<210> 239

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 239

cagcacctcc gcatccgagc tattaatccc cgaatgctgg aacaaaccaa cgacacacca 60

gtcagttggg caaagctgag atgtggccac gcacgttgct cccgtgtaac tttcaggcag 120

<210> 240

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 240

tggtctcctt cccagtagac tggcccacga agactggtgc catgattacc ttcaagatct 60

ggacataagg caggttgtct gggccaatct tgctcccatt cacctcgatg tgctttagcc 120

<210> 241

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 241

ggctctgggc actagaaata cagtagggtg gcaaggacag tccagtactg gcttccccgc 60

ctgccccagc agcttggggc ctacatcaaa tccccagcac agggtcccat ccatctcccc 120

<210> 242

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 242

gcccagaccc aaagggcagt aagataggaa acagtgtctc acgcatacgg tttggtttgg 60

tgttatctgt ttctttctcc tctgaagagg agtcatcatc atcatcatca tcctccgagg 120

<210> 243

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 243

gggtggagag gagcagctgg tcaggctcag gagcagggcc caggccagga cctggaggtg 60

tcttgcccat ctgcccaaca cctgtgagca gtgcctggca cttagcagaa caggcaccgt 120

<210> 244

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 244

tatggcttag aatttatata tggcatttgt ttttccaact cttcgtaaga gatgctctta 60

tcatgcaccc catttgccag aaagatcgta cgtaactcag gacacagggc taagactggg 120

<210> 245

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 245

gagagaggtg gtgctgagtg tgcaaatccc ccatctactt tctgttacct gtctgcgcag 60

agggatgctc ttggccagct tgtgcacagc catctggctg tggaagtcac tcttcttggt 120

<210> 246

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 246

attgcagtaa caactctgtt ctcctgactc tttgcaaata ctttgcctta gcttatggat 60

tcctaactcc caaagcacct tccagaatga gcacaggctt ctgagggaac ggtcattctt 120

<210> 247

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 247

tagtcctggg ggatgtggct agatccctac tgagatggag tgtgtgtgcc tgaagcgtga 60

ggaatgatcc cattcggggg caactgagcc tgcccacagg aacttgagcc cccgagacag 120

<210> 248

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 248

atgaggtcta actctgggac aaagaggtaa acaactttcc cagcttctgg ttccttcctg 60

ttgcgagatc cactggagat ttaggcaatt accttccctg gattaatgga gcattcaggg 120

<210> 249

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 249

tcttgcccat ctgcccaaca cctgtgagca gtgcctggca cttagcagaa caggcaccgt 60

gaccccatgt gccctcctct tcctcccctt tcagccttcc cctcccctct taaacccaat 120

<210> 250

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 250

tcctaactcc caaagcacct tccagaatga gcacaggctt ctgagggaac ggtcattctt 60

gcacacacct gtgccatctg taccatttcc tcccgtgggg aagggtgggc acacagggga 120

<210> 251

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 251

ggaatgatcc cattcggggg caactgagcc tgcccacagg aacttgagcc cccgagacag 60

tggtctcctt cccagtagac tggcccacga agactggtgc catgattacc ttcaagatct 120

<210> 252

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 252

gcagagcaag ggaaggagac agaaagaagg gggactagag gaagaaatgc tccctgacat 60

cttctttgca acaaggaaca aacgaaaacc accaggcagc aaaacctgtt agaggaagag 120

<210> 253

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 253

ggtgagaccc tgagggaaga actccggcag acctgagaag acgatggctg gttacgaccc 60

ttcaccagat gctggcagcc actggcccat ccgagcatgc gggcggtgag cggcatggag 120

<210> 254

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 254

aaacagactc tagagcactt agttcatgat attccactgt gccttgccca gaagccagaa 60

aataaggccc aaagctataa attagggaca atggagaggg cagggcatta gaggcccaga 120

<210> 255

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 255

gttctcttct ctaccctgca tctctgcact tctaagcagc ccttggggac agttcaaatt 60

catgctattg gctgcacatt ctgtccaaat aggacttcct cccaatccat gtcccaggag 120

<210> 256

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 256

caggagggat ggcgggggct gcagacacac acatgcacac gcatacacac acgcacatgt 60

gcatacacag ccagcagatg cgagtatgca agggaatgcc taaccccttc tctctctttt 120

<210> 257

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 257

gatgcactgg agtcagcaga cacctgcaag gaagagtggg gtcaccctag agcaaggagg 60

ggggacgggg tgactccttc ccattcttag tcagggcttc ccaacaatgg cagaggcaca 120

<210> 258

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 258

ccgggcccct cctccctgct cagggaggtg cgtgcacgca gtggggacgg cctgagctct 60

ggctctggca cgggcagcct tacctggttg gaggtcaagg ccacgatgcg gtccaggtct 120

<210> 259

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 259

ccttgtgtag ctgaccccaa agccccagtg acgttgctct caaagcttat tacagaccag 60

caccacccat ccctgcagcc ctctgttccc agctcacctc cactttgtga cctctgttac 120

<210> 260

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 260

tcacctttaa aataagcaga ccaaatgcac ctcttccagc ttgacatttt ataactgatc 60

attgcagtaa caactctgtt ctcctgactc tttgcaaata ctttgcctta gcttatggat 120

<210> 261

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 261

aaatggggcc ggcgggcagg ggctgtttgg tttcaggtaa agatagccag aaggtgaaca 60

caggagggat ggcgggggct gcagacacac acatgcacac gcatacacac acgcacatgt 120

<210> 262

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 262

tccggaggac ttgcagtgtg atatggaggg tgcaggaaat tcacgggcta cactagcttg 60

aaacagactc tagagcactt agttcatgat attccactgt gccttgccca gaagccagaa 120

<210> 263

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 263

aaaagaatca ctgcttcaaa tggaatgttc tatttgtgtt taacccactc cctccaggac 60

tggagcaggg gttgtgagtg gagacagtgg ccaatgacct acagagcagt tttagcacca 120

<210> 264

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 264

ggggacgggg tgactccttc ccattcttag tcagggcttc ccaacaatgg cagaggcaca 60

tgtctgtgta tctgatgttc tttcctcaac acagagtggt ccaaagacca tggtaggcca 120

<210> 265

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 265

gaccccatgt gccctcctct tcctcccctt tcagccttcc cctcccctct taaacccaat 60

gcccagaccc aaagggcagt aagataggaa acagtgtctc acgcatacgg tttggtttgg 120

<210> 266

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 266

aataaggccc aaagctataa attagggaca atggagaggg cagggcatta gaggcccaga 60

gagagaggtg gtgctgagtg tgcaaatccc ccatctactt tctgttacct gtctgcgcag 120

<210> 267

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 267

aagaatgtac gtccagcctg ccccggagct ggaggatccc ctccaagcct aaaaggttgt 60

taatagttgg aggtgattcc agtgaagata ttttatttcc tttgtccttt ttcaggagaa 120

<210> 268

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 268

gttttaattt ttaacttatt gacaaccgag aaggtttatc ccgccgatag agggacggcc 60

aagaatgtac gtccagcctg ccccggagct ggaggatccc ctccaagcct aaaaggttgt 120

<210> 269

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 269

gcctatgccc ctccccctgc cgtccccggc catcctgccc cccagagtgc tgaggtgtgg 60

ggcgggcctt ctggggcaca gcctgggcac agaggtggct gtgcgaagag gggctcggtg 120

<210> 270

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 270

taatagttgg aggtgattcc agtgaagata ttttatttcc tttgtccttt ttcaggagaa 60

ttagatttct ataggatttt tctttaggag atttattttt tggacttcaa agcaagctgg 120

<210> 271

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 271

gcaatgcttc tagagtttta tagcctggac tgctaccttt caaagcttgg agggaagccg 60

tgaattcagt tggttcgttc tgtactgtta ctgggccctg agtctgggca gctgtccctt 120

<210> 272

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 272

tggcaccgca gttttgtttt aaaactggac ctgtatattt gtaaagctat ttatgggccc 60

ctggcactct tgttcccaca ccccaacact tccagcattt agctggccac atggcggaga 120

<210> 273

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 273

gggcgtggag ggaggcccca gggggtctca cccatgcaag cagaggacca gggccttttc 60

tggcaccgca gttttgtttt aaaactggac ctgtatattt gtaaagctat ttatgggccc 120

<210> 274

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 274

agaggtaccc tgggtgtccc cgctgctgtg caacggtctc ctgactggtg ctgcagcacc 60

gaggggcctt tgttctgggg ggacccagtg cagaatgtaa gtgggcccac ccggtgggac 120

<210> 275

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 275

gcacagcgct caccccgcct cccgccagca ggagtacctg gacctgtcgg cgcctttcga 60

gcagtactcc ccgggtggcc aggacacccc cagctccagc tcctcagggg acgactccgt 120

<210> 276

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 276

catgtccagc accttgtgcc tggggtgtta gtggcaccgc ctccccacct ccaggctttc 60

ccacttccca ccctgcccct cagagactga aattacgggt acctgaagat gggagccttt 120

<210> 277

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 277

ttagatttct ataggatttt tctttaggag atttattttt tggacttcaa agcaagctgg 60

tattttcata caaattcttc taattgctgt gtgtcccagg cagggagacg gtttccaggg 120

<210> 278

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 278

tgaggggtcc ctagcagccc accctgctgc tggtgcacag ccactccccg gcatgagact 60

cagtgcagat ggagagacag ctacacagag ctttggtctg tgtgtgtgtg tgtgcgtgtg 120

<210> 279

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 279

atatatataa tttattgagt ttttacaaga tgtatttgtt gtagacttaa cacttcttac 60

gcaatgcttc tagagtttta tagcctggac tgctaccttt caaagcttgg agggaagccg 120

<210> 280

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 280

aggggccggc cctgtgtgca ggttccgatg ttattagatg ttacaagttt atatatatct 60

atatatataa tttattgagt ttttacaaga tgtatttgtt gtagacttaa cacttcttac 120

<210> 281

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 281

tgaattcagt tggttcgttc tgtactgtta ctgggccctg agtctgggca gctgtccctt 60

gcttgcctgc agggccatgg ctcagggtgg tctcttcttg gggcccagtg catggtggcc 120

<210> 282

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 282

ccccgtgggg cagggagctg ggcccgacat ggctccggcc tctgcctttg caccacggga 60

catcacaggg tgggcctcgg cccctcccac acccaaagct gagcctgcag ggaagcccca 120

<210> 283

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 283

agaggtgtca cccaaaccgg caggtgcgat tttgttaacc cagcgacgaa ctttccgaaa 60

aataaagaca cctggttgct aacctggccc tgtgctttct gtctccagtt ctgggatagg 120

<210> 284

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 284

gtatatggta tatatacata tatatatata acatatatgg aagaggaaaa ggctggtaca 60

acggaggcct gcgaccctgg gggcacagga ggcaggcatg gccctgggcg gggcgtgggg 120

<210> 285

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 285

tattttcata caaattcttc taattgctgt gtgtcccagg cagggagacg gtttccaggg 60

aggggccggc cctgtgtgca ggttccgatg ttattagatg ttacaagttt atatatatct 120

<210> 286

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 286

acggaggcct gcgaccctgg gggcacagga ggcaggcatg gccctgggcg gggcgtgggg 60

gggcgtggag ggaggcccca gggggtctca cccatgcaag cagaggacca gggccttttc 120

<210> 287

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 287

gaggggcctt tgttctgggg ggacccagtg cagaatgtaa gtgggcccac ccggtgggac 60

ccccgtgggg cagggagctg ggcccgacat ggctccggcc tctgcctttg caccacggga 120

<210> 288

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 288

tgtgtgtgtg tgtgcacatc cgcgtgtgcc tgtgtgcgtg cgcatcttgc ctccaggtgc 60

agaggtaccc tgggtgtccc cgctgctgtg caacggtctc ctgactggtg ctgcagcacc 120

<210> 289

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 289

ctggcactct tgttcccaca ccccaacact tccagcattt agctggccac atggcggaga 60

gttttaattt ttaacttatt gacaaccgag aaggtttatc ccgccgatag agggacggcc 120

<210> 290

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 290

ccacttccca ccctgcccct cagagactga aattacgggt acctgaagat gggagccttt 60

accttttatg caaaaggttt attccggaaa ctagtgtaca tttctataaa tagatgctgt 120

<210> 291

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 291

accttttatg caaaaggttt attccggaaa ctagtgtaca tttctataaa tagatgctgt 60

gtatatggta tatatacata tatatatata acatatatgg aagaggaaaa ggctggtaca 120

<210> 292

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 292

ggcgggcctt ctggggcaca gcctgggcac agaggtggct gtgcgaagag gggctcggtg 60

gcacagcgct caccccgcct cccgccagca ggagtacctg gacctgtcgg cgcctttcga 120

<210> 293

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 293

catcacaggg tgggcctcgg cccctcccac acccaaagct gagcctgcag ggaagcccca 60

catgtccagc accttgtgcc tggggtgtta gtggcaccgc ctccccacct ccaggctttc 120

<210> 294

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 294

gcttgcctgc agggccatgg ctcagggtgg tctcttcttg gggcccagtg catggtggcc 60

agaggtgtca cccaaaccgg caggtgcgat tttgttaacc cagcgacgaa ctttccgaaa 120

<210> 295

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 295

caagagaaag agtccccatc ccagcatccc agaaggggaa tgtatcagtt ccaacaacat 60

cagcattaac cacacaactg gaaacaaaca cgcccaccac atcaaaagag aactttttgc 120

<210> 296

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 296

tcggggcgct aaagagctca gagaaatctg cattttaatt gacattccag ggaaagagag 60

aggggcgcct gattgctttt ctattcaaac taaacaggct tttcagatga aaatgagtcg 120

<210> 297

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 297

gggttggcat aaccaacctc gttcccttct cttagtccaa ctgggcttta gaaagctaaa 60

ctgttggagg agtctgctca cagctccgta tttctgctgg gctggaggtg agcagtctcc 120

<210> 298

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 298

agcggggtgc gaggagagcg acggaggctg gtggtccccg agcgggcctc ctgcgccagg 60

tccgtggtcc gcgagggtcg gagccagcgc cacgcagggc cctcggcttt tttccccagc 120

<210> 299

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 299

agggtaggtt ttattgaatt gggagaaagg aaggagggtc tggagaacgg tctgcaaggg 60

agcggggtgc gaggagagcg acggaggctg gtggtccccg agcgggcctc ctgcgccagg 120

<210> 300

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 300

ggctccaggc agagaaaggt ggacagggcg ctccgctgaa tctcaagccg ttccatcatc 60

ccgctagctg gcactagaaa tttgcatttc agccatttcc aggtccaaac cccacggcag 120

<210> 301

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 301

atgggtttat catctttcct gctcagagca tatgctttcc ataattataa aaggcactct 60

atctgcatat tgaaggagcc actgacatgg ctaaatttgc acagtgagtg acagacgagt 120

<210> 302

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 302

tacatgtggg aggaaagtac acaaacattc tcattgattt actaagcatt tgcagaatgc 60

aggggaattt tctacctcta acacgacttc aggaacaatc ctaagtcctc gcagaggttt 120

<210> 303

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 303

ctgttggagg agtctgctca cagctccgta tttctgctgg gctggaggtg agcagtctcc 60

caccctcact gtcgctcttg ggaagaaagg agaccagcaa aatcaaaaga atcccaggaa 120

<210> 304

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 304

cagccaacag gggagtgtgt gtgtaaaaca ctacgcatgt ctcacaagac aaccaaggac 60

aaggggcttc tagaaggaag ttcttacctc attggttgtg agagtgagaa ttcgatccaa 120

<210> 305

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 305

caccctcact gtcgctcttg ggaagaaagg agaccagcaa aatcaaaaga atcccaggaa 60

ggctacagaa aattcccacc agtttacact tgtcaggatt cattttcaaa tggagaagtg 120

<210> 306

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 306

atgattttca gaaggaaaga aacttcgatt tttatatcca ccagacaata tggcattctg 60

cttttttatt ttagggtact agatacaaat ttcagtatca acggacccac tctacatgta 120

<210> 307

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 307

caaatgtgcg caaacagagt tctttttcat tatctgctaa atccttccat cctcacctca 60

gagtcccagg tgataccacc agaccggtcc acagaaatgt gtgaggctaa tctttttaaa 120

<210> 308

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 308

actattctat gacatgtggt tttgctgaga gggggcaaaa agtgcagacc acagcacaaa 60

cagcctcagt gttatcagaa aagagcccat ggaatgttgg caactagaca tttttaaaga 120

<210> 309

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 309

cagcctcagt gttatcagaa aagagcccat ggaatgttgg caactagaca tttttaaaga 60

cacacacaca cacacacaca cacacacaca caaaaccctc taattcatca ccagggttgg 120

<210> 310

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 310

agtgctggtg ctgcaaaaag ccctctggat caccccaggg tgacacttcc tccgacttgg 60

gtgcccacag acgactttgt atggcctgag ggctaaagat ggtctttaac attggtaagc 120

<210> 311

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 311

aagaaggggc tcatcaatct caggcttcag attctgtgaa ccacaggaat gaaccacatt 60

ttctaagact gggggtggca gggaggcctt taatacaaaa atctctaaac tctacatttt 120

<210> 312

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 312

ccgtcagcac gcacccacct cccccatcac ctatgcagcc acagagggag gacacggagc 60

gtcctccaca atgctagtcc ttccgcgccc cccgcccgga ggacggtgca cccggcgtcc 120

<210> 313

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 313

tcaacaaatt gaaatctcaa aaaacacaca ctgacccagg accacaaagc cctcccggtt 60

taatgcttgc gtccaatcag aacttgcgag cagcttgggg gtgctcccca ccaccacccc 120

<210> 314

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 314

aacgcgccca gtcagcggga atgcgcccgc cagggtttga cagggagggg ggcgtcaacg 60

ccagaagcag atgtcagcat ctggatgggg gtagcagagg cagaacttcc agaacgccgg 120

<210> 315

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 315

gcagaccaat acagtgccct ccgctttggg cttccaccta aggggtgatc tgtccactgc 60

tggctcggcc actgggatca cctggtgttt tgttcctggg tagatttcac atcaggaaag 120

<210> 316

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 316

atctgcatat tgaaggagcc actgacatgg ctaaatttgc acagtgagtg acagacgagt 60

gtttattttg ttggcaagga tcataaatta ttattatttt ctttttgaga tgaagtcttg 120

<210> 317

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 317

tctctgtgac taagggtaca gtaaaatgca caaactttag agaatgatta aaacaatcac 60

aagaaggggc tcatcaatct caggcttcag attctgtgaa ccacaggaat gaaccacatt 120

<210> 318

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 318

gcctgcgggg ctgtgccacg ggcaggcgaa ccttccgccc gtctgctctg gggtcggaga 60

aacgcgccca gtcagcggga atgcgcccgc cagggtttga cagggagggg ggcgtcaacg 120

<210> 319

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 319

ttcagatctg ataggaaaaa aacagggata tcagtagatt ccaagtctac agttaaagga 60

acttatacta gaaacaacaa ttttggcaga agaagaaagt tggtttcttc ccccccttga 120

<210> 320

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 320

ccgctagctg gcactagaaa tttgcatttc agccatttcc aggtccaaac cccacggcag 60

ccccctcccc aaaactctgg aaggcggaga cctaaggcga caggtctgca cagttcctca 120

<210> 321

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 321

cccaaagaca ggcagagtga caagcaggaa gggcttggct gcggagcggt ccccatgcca 60

ggcctgtgct gggctcttca atttaccatg acattcccaa aacccccgcc ctccaagaag 120

<210> 322

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 322

gtgcccacag acgactttgt atggcctgag ggctaaagat ggtctttaac attggtaagc 60

ggttgaaaaa aaaaatcaaa agaagaagaa tatcttatag gattaaaatg aataaaattt 120

<210> 323

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 323

agttgccgac ccctgttctg aagctatgaa aagctttcta aattgggaac ttgtgggtct 60

ctctgcctcc actgggctgg cacagtgggg cagttctgct cacacatcca gaagccaaca 120

<210> 324

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 324

cttcagtgag gcaatgtgtg ctctcttcta ctatccacta tcgcctccac cgccctcaat 60

gagcagaagc aacgtgacct tagtttcaag ggcaactaca aaagcaagtt aaaaatgctc 120

<210> 325

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 325

gaccacgtct gatgtacccc aggctgtcct tagcttttct cttggaatcc atcataaatc 60

aactattgac aggtagagaa caataaaacc tagttgagct ataggtgctg ggcaggcaac 120

<210> 326

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 326

agagtataag ttagaagagg acactcaact taatattctg ttcacccatt tgatccaagg 60

gaaagagaat tttccaagaa agcttaatat attccaagca actttaaatt cactcagtac 120

<210> 327

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 327

ctctgcctcc actgggctgg cacagtgggg cagttctgct cacacatcca gaagccaaca 60

actattctat gacatgtggt tttgctgaga gggggcaaaa agtgcagacc acagcacaaa 120

<210> 328

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 328

ttctaagact gggggtggca gggaggcctt taatacaaaa atctctaaac tctacatttt 60

ttatgtaccc actcgatgtt tcaagttatg tcataggatt tcaacactgc tggagcctcc 120

<210> 329

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 329

aatcttcccc aatgccaaat cactccagcc caagtgggat aaaaccattt ttcagcctct 60

caaatgtgcg caaacagagt tctttttcat tatctgctaa atccttccat cctcacctca 120

<210> 330

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 330

atagcgtttc acaccaaaca cataatgggt gccctgagtt tgaaagcagg tttgccttta 60

agggtaggtt ttattgaatt gggagaaagg aaggagggtc tggagaacgg tctgcaaggg 120

<210> 331

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 331

acaggcatga gccactgcgc ctgaccaact tttcccagtt tctcaatgaa gccataaact 60

ttcagatctg ataggaaaaa aacagggata tcagtagatt ccaagtctac agttaaagga 120

<210> 332

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 332

tccaagtatt cctgaaagaa gggaagagag acgttttatt tcatcttggg tcaggataac 60

aaggtgaata cggttcgaga ggctgactga ggtccaagta ttcctgaaag aagggaagag 120

<210> 333

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 333

tgcttcaaat gcgagcccca gcaaaatgaa aaccggtaac atgttgtggg tccccagacc 60

ccctttaagt agttgagact atgaatattt attttctgaa ttacatttta ctattgtagt 120

<210> 334

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 334

tccgtggtcc gcgagggtcg gagccagcgc cacgcagggc cctcggcttt tttccccagc 60

gcggccccgt ggccgaaaaa aatgagcgcg caagttagaa ctcgcctgcg ctttcgacat 120

<210> 335

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 335

caggcaccgg agccgtcgcc tccccagcag tgccacccct ggccatcgcc acccctacgg 60

gatgtcaccg gccccacccc agcggccccc tcccgaaaaa ggggtctccg cagggcctgg 120

<210> 336

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 336

agtcatggta tgtgattgga ccaataactt tccatatgca aacctactgg ctaaattttc 60

agagtataag ttagaagagg acactcaact taatattctg ttcacccatt tgatccaagg 120

<210> 337

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 337

cagaagctgg tgttagaaaa cttcattgta ttccatcaag caaatgatga cgaacattat 60

cagtttaccc actaatgacc aaagcacaga atcaaacttg cacaggaatc caagcttttt 120

<210> 338

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 338

ccccctcccc aaaactctgg aaggcggaga cctaaggcga caggtctgca cagttcctca 60

caccagtgga caaaagtatg gtgcgacctc ctaggcagga taattaggtc cccaggctcg 120

<210> 339

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 339

gtgttgggaa tacaggccca gcatgccgct ggcggccaca atcccggctt cctgccttca 60

ataccataat ccttcctgga gtctgagccc cagtgaaagc cccagcgtgt ttatttttcc 120

<210> 340

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 340

gagcagaagc aacgtgacct tagtttcaag ggcaactaca aaagcaagtt aaaaatgctc 60

gggttggcat aaccaacctc gttcccttct cttagtccaa ctgggcttta gaaagctaaa 120

<210> 341

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 341

tcaacagtgt ccggctcctc caaagtgcag acccatctct tcgcttaagg cctccctact 60

tctccccagc actgagtagg agcgggagct gtcaaggggt caaggctagg gggaaattcc 120

<210> 342

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 342

tttcatgagt cagaactcac aaaatgaagt tctgagaaaa atcatgattt gagaggaacc 60

catagttgaa ctatctgacc ctatggaaaa agaataaaca agaccacaga ctccaaccaa 120

<210> 343

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 343

atatacaatt atataaaatt ccaatttcag gatccataaa attttactag aagacagact 60

agaacacatc tatttacata ttgtctgtgg ctactttgag gctacagtgg cgaagttgca 120

<210> 344

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 344

gattactctc agaagctctc cgagttgaaa atgtaaacag gttcaaaaaa ggcttagaca 60

tactcatgta tgttaaatcc ataatgcact gttaaaggaa acttcaggaa aatatcggtt 120

<210> 345

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 345

tatcactaca tttgattatt actttttaaa aaatcactct aaaactattt cctaaatcag 60

aaattaagtg tattattttc cttctaaaat acttggggga ctttaacttt tttcttgttg 120

<210> 346

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 346

ggctacagaa aattcccacc agtttacact tgtcaggatt cattttcaaa tggagaagtg 60

tctttcagtc ttccgccaag cagccactta cgaagagtga acacaactgc agcgcattca 120

<210> 347

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 347

aagtttcaaa gttttgaagg ttcgagattc agaaagtgtc ctttgctccc caaggcatcc 60

agtgctggtg ctgcaaaaag ccctctggat caccccaggg tgacacttcc tccgacttgg 120

<210> 348

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 348

agcccggtgg aagatttaca gggatttggg accagggaga caatggagtt ttaaatgttg 60

atagcgtttc acaccaaaca cataatgggt gccctgagtt tgaaagcagg tttgccttta 120

<210> 349

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 349

ctagccccag gcgcactgcg ctccctccag cgccgacggc ggctgcgggc gaggggcgcc 60

caggcaccgg agccgtcgcc tccccagcag tgccacccct ggccatcgcc acccctacgg 120

<210> 350

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 350

aaagaggctg caaggcatat agcattacca acaggatcac ataggatagt actgtggtaa 60

cagaagctgg tgttagaaaa cttcattgta ttccatcaag caaatgatga cgaacattat 120

<210> 351

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 351

ccctttaagt agttgagact atgaatattt attttctgaa ttacatttta ctattgtagt 60

ttcggggata attgaagggg aatacttctt cattcagtgg gtaatttaac agatgtaact 120

<210> 352

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 352

cttttttatt ttagggtact agatacaaat ttcagtatca acggacccac tctacatgta 60

aatatataaa taaatcactt tgagcataga catgagatca ttaaaataga actttagtgc 120

<210> 353

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 353

ttatgtaccc actcgatgtt tcaagttatg tcataggatt tcaacactgc tggagcctcc 60

ccaaatctca tcataaaaac tgctcctttt agctttgact gaggacaaaa atggaggagg 120

<210> 354

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 354

aggggaattt tctacctcta acacgacttc aggaacaatc ctaagtcctc gcagaggttt 60

caccccaggc tccttccccg gcctgctcgc ccacctgtcc ctgcccagag gagcctcctt 120

<210> 355

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 355

gtcctccaca atgctagtcc ttccgcgccc cccgcccgga ggacggtgca cccggcgtcc 60

cgggctcccg tggcgcccac gtccccggct ggcgaagctc cccgaggcgt cttgcgcggc 120

<210> 356

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 356

catagttgaa ctatctgacc ctatggaaaa agaataaaca agaccacaga ctccaaccaa 60

cagccaacag gggagtgtgt gtgtaaaaca ctacgcatgt ctcacaagac aaccaaggac 120

<210> 357

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 357

tcggcttcac acggacctaa ataacccgct gagtctacac cacctcctca ctagagccct 60

tgcttcaaat gcgagcccca gcaaaatgaa aaccggtaac atgttgtggg tccccagacc 120

<210> 358

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 358

ttacaatgat aaaaacgaaa ttttgtccta aatggaaccg tttttcttga gcatatggta 60

atgattttca gaaggaaaga aacttcgatt tttatatcca ccagacaata tggcattctg 120

<210> 359

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 359

ccagaagcag atgtcagcat ctggatgggg gtagcagagg cagaacttcc agaacgccgg 60

ccgtcagcac gcacccacct cccccatcac ctatgcagcc acagagggag gacacggagc 120

<210> 360

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 360

tactcatgta tgttaaatcc ataatgcact gttaaaggaa acttcaggaa aatatcggtt 60

aagtttcaaa gttttgaagg ttcgagattc agaaagtgtc ctttgctccc caaggcatcc 120

<210> 361

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 361

agcatacttt taagaaacag agataaaaca gtagctacag gactcagata cgtgcagcca 60

cttcagtgag gcaatgtgtg ctctcttcta ctatccacta tcgcctccac cgccctcaat 120

<210> 362

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 362

ttaacttttc tttcctctta gtcaagagcc tcagaagata atttcggatc tatttctaca 60

tacatgtggg aggaaagtac acaaacattc tcattgattt actaagcatt tgcagaatgc 120

<210> 363

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 363

aactattgac aggtagagaa caataaaacc tagttgagct ataggtgctg ggcaggcaac 60

tcggcttcac acggacctaa ataacccgct gagtctacac cacctcctca ctagagccct 120

<210> 364

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 364

accgttcctt tcctttcaac ttctgaaggt cagctgtatt catttaagtg caatctcttc 60

ctttatccag cacaggccac agtcagacgc ataagataaa gctgctgagc taagacttca 120

<210> 365

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 365

cggactgctc caccagcagc tacactgaag gcagcctcgg ggatgtccct ctgtctttgg 60

tttcatgagt cagaactcac aaaatgaagt tctgagaaaa atcatgattt gagaggaacc 120

<210> 366

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 366

tctttcagtc ttccgccaag cagccactta cgaagagtga acacaactgc agcgcattca 60

acgcagctga tccaaaaagg acttcgaagc ctgaattccc ttcccctgtg actaaatggc 120

<210> 367

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 367

ggcctgtgct gggctcttca atttaccatg acattcccaa aacccccgcc ctccaagaag 60

gcagaccaat acagtgccct ccgctttggg cttccaccta aggggtgatc tgtccactgc 120

<210> 368

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 368

tatgtaaaaa tcatgtaagt tgctcattgt agaaaacagt gtatgtttat atacacctag 60

aaagaggctg caaggcatat agcattacca acaggatcac ataggatagt actgtggtaa 120

<210> 369

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 369

cgggctcccg tggcgcccac gtccccggct ggcgaagctc cccgaggcgt cttgcgcggc 60

gattaccttg aatggcaacg ctcctccgcg acctgtgttg tccccgcgcc ccgcgtgggt 120

<210> 370

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 370

ctcccagccg ctgcggcaga gcaggcaggc gaactagaaa aagtcggtcc agttcgcccc 60

ctagccccag gcgcactgcg ctccctccag cgccgacggc ggctgcgggc gaggggcgcc 120

<210> 371

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 371

gagtcccagg tgataccacc agaccggtcc acagaaatgt gtgaggctaa tctttttaaa 60

agcatacttt taagaaacag agataaaaca gtagctacag gactcagata cgtgcagcca 120

<210> 372

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 372

taatgcttgc gtccaatcag aacttgcgag cagcttgggg gtgctcccca ccaccacccc 60

ctttcagggc agcacttctt tcatttgttt gcctgaaata tcctgttttt ctcccccttc 120

<210> 373

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 373

atggtgtgtg cgtgcacggt gtgtgcatgt gctttcagat agcttgaaag atttttcctc 60

ttaacttttc tttcctctta gtcaagagcc tcagaagata atttcggatc tatttctaca 120

<210> 374

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 374

tggatggctc ttctcggccg cccgcccccc ggtccatttt cacctcggca caagcctgcc 60

cccaaagaca ggcagagtga caagcaggaa gggcttggct gcggagcggt ccccatgcca 120

<210> 375

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 375

aaattaagtg tattattttc cttctaaaat acttggggga ctttaacttt tttcttgttg 60

agacaattgc atggtttgga gttagtttcc tgtgtaaaag aacactattg tgcatcctca 120

<210> 376

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 376

cacacacaca cacacacaca cacacacaca caaaaccctc taattcatca ccagggttgg 60

caagagaaag agtccccatc ccagcatccc agaaggggaa tgtatcagtt ccaacaacat 120

<210> 377

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 377

aggggcgcct gattgctttt ctattcaaac taaacaggct tttcagatga aaatgagtcg 60

agcccggtgg aagatttaca gggatttggg accagggaga caatggagtt ttaaatgttg 120

<210> 378

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 378

atggtacgga agttcccagg acacacggat ggggcacctc ggagatgacc ccgggaaccg 60

gcctgcgggg ctgtgccacg ggcaggcgaa ccttccgccc gtctgctctg gggtcggaga 120

<210> 379

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 379

aaggtgaata cggttcgaga ggctgactga ggtccaagta ttcctgaaag aagggaagag 60

aagagtttta tttcaaacac aaactcttga gatgtgggta ttggacgtgg gacaggacag 120

<210> 380

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 380

cagcattaac cacacaactg gaaacaaaca cgcccaccac atcaaaagag aactttttgc 60

ttacaatgat aaaaacgaaa ttttgtccta aatggaaccg tttttcttga gcatatggta 120

<210> 381

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 381

gcggccccgt ggccgaaaaa aatgagcgcg caagttagaa ctcgcctgcg ctttcgacat 60

ctcccagccg ctgcggcaga gcaggcaggc gaactagaaa aagtcggtcc agttcgcccc 120

<210> 382

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 382

caccccaggc tccttccccg gcctgctcgc ccacctgtcc ctgcccagag gagcctcctt 60

ggctccaggc agagaaaggt ggacagggcg ctccgctgaa tctcaagccg ttccatcatc 120

<210> 383

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 383

gaaaagaata tgccacatca tttccaaagg aggaataaag aaaacctctg cttcaaagat 60

agcacaggtg aaacggtgtg attcacagca aaagcaagaa aagtatgtgt gcagtgtgtg 120

<210> 384

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 384

agtccagggc tgctaaatgt cttcaacctc tgtagaaggg tgaggaaact gagcagatgc 60

aaattctgat gaataatgca ggaatttatt aataatgatg atgtaaatta tgtaaattat 120

<210> 385

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 385

ctttcagggc agcacttctt tcatttgttt gcctgaaata tcctgttttt ctcccccttc 60

tcggggcgct aaagagctca gagaaatctg cattttaatt gacattccag ggaaagagag 120

<210> 386

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 386

ggttgaaaaa aaaaatcaaa agaagaagaa tatcttatag gattaaaatg aataaaattt 60

atatacaatt atataaaatt ccaatttcag gatccataaa attttactag aagacagact 120

<210> 387

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 387

aagagtttta tttcaaacac aaactcttga gatgtgggta ttggacgtgg gacaggacag 60

gagaccccta gaaggtgaac agagacccag cccacctgac ttccacgaag acctccctga 120

<210> 388

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 388

ccttgaaagg gaactctctt ctcagcctgc acgcgggagg agttgtcacc ctccctctga 60

tggatggctc ttctcggccg cccgcccccc ggtccatttt cacctcggca caagcctgcc 120

<210> 389

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 389

ttcggggata attgaagggg aatacttctt cattcagtgg gtaatttaac agatgtaact 60

gattactctc agaagctctc cgagttgaaa atgtaaacag gttcaaaaaa ggcttagaca 120

<210> 390

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 390

tggctcggcc actgggatca cctggtgttt tgttcctggg tagatttcac atcaggaaag 60

tcaacagtgt ccggctcctc caaagtgcag acccatctct tcgcttaagg cctccctact 120

<210> 391

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 391

ttaaatatct caaaatacat tcattaacaa tttctctatc ttaagatttg actagacttg 60

atgggtttat catctttcct gctcagagca tatgctttcc ataattataa aaggcactct 120

<210> 392

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 392

ctttatccag cacaggccac agtcagacgc ataagataaa gctgctgagc taagacttca 60

tatcactaca tttgattatt actttttaaa aaatcactct aaaactattt cctaaatcag 120

<210> 393

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 393

caccagtgga caaaagtatg gtgcgacctc ctaggcagga taattaggtc cccaggctcg 60

gtgttgggaa tacaggccca gcatgccgct ggcggccaca atcccggctt cctgccttca 120

<210> 394

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 394

tctccccagc actgagtagg agcgggagct gtcaaggggt caaggctagg gggaaattcc 60

tcaacaaatt gaaatctcaa aaaacacaca ctgacccagg accacaaagc cctcccggtt 120

<210> 395

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 395

ataccataat ccttcctgga gtctgagccc cagtgaaagc cccagcgtgt ttatttttcc 60

ccttgaaagg gaactctctt ctcagcctgc acgcgggagg agttgtcacc ctccctctga 120

<210> 396

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 396

acgcagctga tccaaaaagg acttcgaagc ctgaattccc ttcccctgtg actaaatggc 60

agtccagggc tgctaaatgt cttcaacctc tgtagaaggg tgaggaaact gagcagatgc 120

<210> 397

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 397

acttatacta gaaacaacaa ttttggcaga agaagaaagt tggtttcttc ccccccttga 60

accgttcctt tcctttcaac ttctgaaggt cagctgtatt catttaagtg caatctcttc 120

<210> 398

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 398

agacaattgc atggtttgga gttagtttcc tgtgtaaaag aacactattg tgcatcctca 60

ttaaatatct caaaatacat tcattaacaa tttctctatc ttaagatttg actagacttg 120

<210> 399

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 399

cccatgcaca ccaaaatgca agtgaatact gcttcccctt tcccactctc ccacataccc 60

cggactgctc caccagcagc tacactgaag gcagcctcgg ggatgtccct ctgtctttgg 120

<210> 400

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 400

aaattctgat gaataatgca ggaatttatt aataatgatg atgtaaatta tgtaaattat 60

agtcatggta tgtgattgga ccaataactt tccatatgca aacctactgg ctaaattttc 120

<210> 401

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 401

ccaaatctca tcataaaaac tgctcctttt agctttgact gaggacaaaa atggaggagg 60

gaaaagaata tgccacatca tttccaaagg aggaataaag aaaacctctg cttcaaagat 120

<210> 402

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 402

aatatataaa taaatcactt tgagcataga catgagatca ttaaaataga actttagtgc 60

ttttcccggt ttctttcttt tttattttta tttttttttt ttttgagacg gagtctcgct 120

<210> 403

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 403

gatgtcaccg gccccacccc agcggccccc tcccgaaaaa ggggtctccg cagggcctgg 60

atggtacgga agttcccagg acacacggat ggggcacctc ggagatgacc ccgggaaccg 120

<210> 404

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 404

gaaagagaat tttccaagaa agcttaatat attccaagca actttaaatt cactcagtac 60

tctctgtgac taagggtaca gtaaaatgca caaactttag agaatgatta aaacaatcac 120

<210> 405

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 405

acaggcgaga gcataaatat tttagggaaa ataaatattt taacaaaagg tacatgtttt 60

tatgtaaaaa tcatgtaagt tgctcattgt agaaaacagt gtatgtttat atacacctag 120

<210> 406

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 406

gagaccccta gaaggtgaac agagacccag cccacctgac ttccacgaag acctccctga 60

gaccacgtct gatgtacccc aggctgtcct tagcttttct cttggaatcc atcataaatc 120

<210> 407

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 407

cagtttaccc actaatgacc aaagcacaga atcaaacttg cacaggaatc caagcttttt 60

cccatgcaca ccaaaatgca agtgaatact gcttcccctt tcccactctc ccacataccc 120

<210> 408

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 408

gatgctccag gtggcataac ggacctgagg ggaaatgcca aagggataca ttgagggtcc 60

agaggaaaat gcaggcccca tgacaatgtc ggcaccccgt ggcacctgcc ctccatatca 120

<210> 409

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 409

agaggaaaat gcaggcccca tgacaatgtc ggcaccccgt ggcacctgcc ctccatatca 60

gagcctggtg gcacagggcc ccaggctgca gggttggcta ggacaaggcg tggattgccc 120

<210> 410

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 410

gagcctggtg gcacagggcc ccaggctgca gggttggcta ggacaaggcg tggattgccc 60

ccctaccagc ccgttcacac tctgcaagct ggcagatggg gtgtaaagac tccagaagtc 120

<210> 411

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 411

ccctaccagc ccgttcacac tctgcaagct ggcagatggg gtgtaaagac tccagaagtc 60

tccactgtga cgttcaagat cattcgtgat ccggacagat gtgccttctg caaacactcc 120

<210> 412

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 412

tccactgtga cgttcaagat cattcgtgat ccggacagat gtgccttctg caaacactcc 60

caaatacacc aagaatgttc ccaactgtgc acctctccta ttacactaag aatccagccc 120

<210> 413

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 413

caaatacacc aagaatgttc ccaactgtgc acctctccta ttacactaag aatccagccc 60

ccactgtcct tgacagctca tttcaaaaac catctcctcc agtccagtct ctggtcagaa 120

<210> 414

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 414

ccactgtcct tgacagctca tttcaaaaac catctcctcc agtccagtct ctggtcagaa 60

ctgtgctcac cctttcctct ctgcctacca aagcactgat cacagtctac tttttacggt 120

<210> 415

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 415

ctgtgctcac cctttcctct ctgcctacca aagcactgat cacagtctac tttttacggt 60

agctgctcat ggacatttgc ctcctatcag actgcaaaat ttttatgggc aggaacgcta 120

<210> 416

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 416

agctgctcat ggacatttgc ctcctatcag actgcaaaat ttttatgggc aggaacgcta 60

tcttgcagca tttaaagcat ggtgtcttgc atgtagtgag tgcatggtga attaatttaa 120

<210> 417

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 417

tgcttacacc ctttaagtta gtaatttcac ttgtaacaat ctgtcctaag gaagcacgct 60

taaaaaaatg ctgacagaga ttcactgcaa cattatttat tatggtgaaa aaccagaaaa 120

<210> 418

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 418

taaaaaaatg ctgacagaga ttcactgcaa cattatttat tatggtgaaa aaccagaaaa 60

tacctaatat cacaaaatag ttcattaaat tataggactt tttctgttgt tttttggaga 120

<210> 419

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 419

tggaatctta tacagtcatg aaaaattatg tttcaaatat tcatgcttga aatatatcag 60

gaaaagactc atgttaacaa atgacaaggc aaggaaatta catacatgat gtgatcaact 120

<210> 420

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 420

gaaaagactc atgttaacaa atgacaaggc aaggaaatta catacatgat gtgatcaact 60

atgtaaaaac catattacag aaagaagact gaagaaatgt ttaaacttta tttgcatttt 120

<210> 421

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 421

atgtaaaaac catattacag aaagaagact gaagaaatgt ttaaacttta tttgcatttt 60

tttgtattta aaaattttaa tgaataacct gtataggtgg aaagtattac ttaaaaaaat 120

<210> 422

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 422

tttgtattta aaaattttaa tgaataacct gtataggtgg aaagtattac ttaaaaaaat 60

gaaaagcatg taatcaggac ttcctaactc ggcctcccct gttcccatta ctctaacttt 120

<210> 423

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 423

gaaaagcatg taatcaggac ttcctaactc ggcctcccct gttcccatta ctctaacttt 60

cgcatgcaca cacacgtacc ttgtagcctc caattctgtg gtcaggtttg aattctttgc 120

<210> 424

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 424

agggctagaa gcgcgacggc ggtagcagct aggcttggcc cccggcgtgg agcagacgcg 60

gacccctcct tcctggcggc ggcggcgcgg gctcagagcc cggcaacggg cgggcgggca 120

<210> 425

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 425

gacccctcct tcctggcggc ggcggcgcgg gctcagagcc cggcaacggg cgggcgggca 60

ggtaggagag cggctacacg gcgcggggag gctggggtcc tgggggcgcg aggccgtccc 120

<210> 426

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 426

ggtaggagag cggctacacg gcgcggggag gctggggtcc tgggggcgcg aggccgtccc 60

gccccgcccc gccctcggcc ctcgccctcc cgccccggcc gccgctttcc ccgggaagcg 120

<210> 427

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 427

gccccgcccc gccctcggcc ctcgccctcc cgccccggcc gccgctttcc ccgggaagcg 60

tcccccacgg ctcctcctgg ggccgccgcc agaacctgta ccgcgccctg tcatgggacc 120

<210> 428

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 428

tcccccacgg ctcctcctgg ggccgccgcc agaacctgta ccgcgccctg tcatgggacc 60

cggccctaga ccgaccgccg ggctgggccc cctggatggt ggccaggggc ggctagagct 120

<210> 429

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 429

cggccctaga ccgaccgccg ggctgggccc cctggatggt ggccaggggc ggctagagct 60

gggccaagac cgacggcgga gcgggcgccc cgaggtgctt tgctctcctc gaccctctcc 120

<210> 430

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 430

gggccaagac cgacggcgga gcgggcgccc cgaggtgctt tgctctcctc gaccctctcc 60

tgtctctcgg tcgcccacct tggctctttg ttggctccca gcacgcggac cctcctgttg 120

<210> 431

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 431

tgtctctcgg tcgcccacct tggctctttg ttggctccca gcacgcggac cctcctgttg 60

ttctttggtc ccttccggcc tccgtcctgg ggccaactcc atctaggccg cctgcggcgg 120

<210> 432

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 432

ttctttggtc ccttccggcc tccgtcctgg ggccaactcc atctaggccg cctgcggcgg 60

acacctgggc ccctaccgct tccccgcacc tgctgcgccg ctccaccttc cccccgcacc 120

<210> 433

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 433

acacctgggc ccctaccgct tccccgcacc tgctgcgccg ctccaccttc cccccgcacc 60

gcatccctct tgtgcaccag agtagcacca aagcaccagc ctggggccgg tcccttctct 120

<210> 434

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 434

gcatccctct tgtgcaccag agtagcacca aagcaccagc ctggggccgg tcccttctct 60

gcccagagcc cctcccgggc ctccatagtc agtaaaggcc cctcctgact aaggctgggt 120

<210> 435

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 435

gcccagagcc cctcccgggc ctccatagtc agtaaaggcc cctcctgact aaggctgggt 60

ctgctgctct cccgagctcc tccaggccgc cagaaggctt cctccgagtc actttctccc 120

<210> 436

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 436

ctgctgctct cccgagctcc tccaggccgc cagaaggctt cctccgagtc actttctccc 60

tgagttcgag gcttgcgggt cccccagcga tccagcaccc cttcccctgc cctgtaccca 120

<210> 437

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 437

tgagttcgag gcttgcgggt cccccagcga tccagcaccc cttcccctgc cctgtaccca 60

gttattcagg gcgaaaacct aagcgtcgtc cgtaagtccc atatgtgcca gtggccaggc 120

<210> 438

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 438

gttattcagg gcgaaaacct aagcgtcgtc cgtaagtccc atatgtgcca gtggccaggc 60

ccgggtctgg tctggcatct actccttggg ctccagaagc ctgtggtttc cctgcttccc 120

<210> 439

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 439

ccgggtctgg tctggcatct actccttggg ctccagaagc ctgtggtttc cctgcttccc 60

ttctgctctt aacctcccca cccacacaca gcaccacagt gggcttctca agctgcagca 120

<210> 440

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 440

ttctgctctt aacctcccca cccacacaca gcaccacagt gggcttctca agctgcagca 60

ccgacctgcc ggggctgccc cctctctctt ctccaggacc ctccccaact ttgctcttct 120

<210> 441

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 441

ccgacctgcc ggggctgccc cctctctctt ctccaggacc ctccccaact ttgctcttct 60

tcaaatcaaa gcctccccag gtccccctcc accaccaggt gcctgtgggg ttcctgccct 120

<210> 442

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 442

tcaaatcaaa gcctccccag gtccccctcc accaccaggt gcctgtgggg ttcctgccct 60

ggtcgacact cggttctctc tggcagcctt tttccctacg tcattcccta gactgggaac 120

<210> 443

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 443

ggtcgacact cggttctctc tggcagcctt tttccctacg tcattcccta gactgggaac 60

gctgtagaca gaaagggtgg caagtgtgtg ggtgaccggc gtgaggacct gggcagccct 120

<210> 444

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 444

gctgtagaca gaaagggtgg caagtgtgtg ggtgaccggc gtgaggacct gggcagccct 60

ggaacctggg actgactgga ggctctgatg tggaagttcc ttggcacctg ttgctcagct 120

<210> 445

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 445

ggaacctggg actgactgga ggctctgatg tggaagttcc ttggcacctg ttgctcagct 60

ctgggcttcc cttgtttgcg catcgtctcc cagctcctcc tctgggcctt caccctctca 120

<210> 446

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 446

ctgggcttcc cttgtttgcg catcgtctcc cagctcctcc tctgggcctt caccctctca 60

gcctggtctt gtcccgctgc ctagcccggt gggagagagc agaccagagc cgctgtcctg 120

<210> 447

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 447

gcctggtctt gtcccgctgc ctagcccggt gggagagagc agaccagagc cgctgtcctg 60

cttttctgcc ctctactgcc cggtcctgcc tcacgtcaca cgcagaggcc tgtggggaga 120

<210> 448

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 448

cttttctgcc ctctactgcc cggtcctgcc tcacgtcaca cgcagaggcc tgtggggaga 60

ccagggcttc ctctggctca tccgggtttc ttattggccc gggcttttcc gtctcttgac 120

<210> 449

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 449

ccagggcttc ctctggctca tccgggtttc ttattggccc gggcttttcc gtctcttgac 60

ttctgcttga tatagtaata cagcagtaga gattatgcag gcttgggttt tctttctcac 120

<210> 450

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 450

ttctgcttga tatagtaata cagcagtaga gattatgcag gcttgggttt tctttctcac 60

catctcagcc tgaaggccct ttagctcttg gtcccaggaa gcagcagtgc tgcccatggc 120

<210> 451

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 451

catctcagcc tgaaggccct ttagctcttg gtcccaggaa gcagcagtgc tgcccatggc 60

tccccctgcc aggctggaga gtgagtctct gaagcaagat ggggactcag tctgaggctt 120

<210> 452

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 452

tccccctgcc aggctggaga gtgagtctct gaagcaagat ggggactcag tctgaggctt 60

tctctgccaa gagacacgtg tgggaggtgt gagttccaga gcaatgagca cacctgtgtg 120

<210> 453

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 453

tctctgccaa gagacacgtg tgggaggtgt gagttccaga gcaatgagca cacctgtgtg 60

ggaagtggtc gtgccccttg cagcagctgt cacgtctgtg tctggacaat gtggtagtgt 120

<210> 454

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 454

ggaagtggtc gtgccccttg cagcagctgt cacgtctgtg tctggacaat gtggtagtgt 60

tgccctcaca ctgacacaaa catgttctgc ttttccagaa tgagtctgca ggtcttaaac 120

<210> 455

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 455

tgccctcaca ctgacacaaa catgttctgc ttttccagaa tgagtctgca ggtcttaaac 60

gacaaaaatg tcagcaatga aaaaaataca gaaaattgcg acttcctgtt ttcgccacca 120

<210> 456

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 456

gacaaaaatg tcagcaatga aaaaaataca gaaaattgcg acttcctgtt ttcgccacca 60

gaagttaccg gaagatcgtc tgttcttcgt gtgtcacaga aagaaaatgt gccacccaag 120

<210> 457

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 457

gaagttaccg gaagatcgtc tgttcttcgt gtgtcacaga aagaaaatgt gccacccaag 60

aacctggcca aagctatgaa ggtaagtgtg acctgtacag tgtgtggctg gccaggttgc 120

<210> 458

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 458

aacctggcca aagctatgaa ggtaagtgtg acctgtacag tgtgtggctg gccaggttgc 60

cctagggcct gctttcttgg tgacctctga gctgcaggac actgctggtg tggctgtaac 120

<210> 459

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 459

cctagggcct gctttcttgg tgacctctga gctgcaggac actgctggtg tggctgtaac 60

agcttgaact aatgaatagg tgctctcctc ctcactccgc aacaggtgac ttttcagaca 120

<210> 460

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 460

agcttgaact aatgaatagg tgctctcctc ctcactccgc aacaggtgac ttttcagaca 60

cctctgcggg atccacagac gcacaggatt ctaagtccta gcatggccag caaacttgag 120

<210> 461

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 461

cctctgcggg atccacagac gcacaggatt ctaagtccta gcatggccag caaacttgag 60

gctcctttca ctcaggatga cacccttgga ctggaaaact cacacccggt ctggacacag 120

<210> 462

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 462

gctcctttca ctcaggatga cacccttgga ctggaaaact cacacccggt ctggacacag 60

aaagagaagt aagtgttggt gctgctggac atgctggagc ttcaccctct ctgtccgatg 120

<210> 463

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 463

aaagagaagt aagtgttggt gctgctggac atgctggagc ttcaccctct ctgtccgatg 60

gttcttgcag gaaagtgctg tcttgttcta tcaggccttg gctggatttt ttgtttgttt 120

<210> 464

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 464

aactgcaagt ggatggcgag gcggtgtctg tctttgccta gaaagggagg atcctggtgg 60

cagctcttta ctctgcggct gaactaatct gtctgggcac ccaggaacac ctcatctgca 120

<210> 465

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 465

cagctcttta ctctgcggct gaactaatct gtctgggcac ccaggaacac ctcatctgca 60

tccagggtgg gaagggaccc cagaggcatg attttctgtt ggttttttgc tgatgtaact 120

<210> 466

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 466

tttaagcaga ttttagatgt gcagagaaaa gcataaggaa cagaatacca ctgatgcttc 60

tcaccccctg agataaaatg tcaccagtaa gtgcaggcag catttcctac atccttctct 120

<210> 467

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 467

tcaccccctg agataaaatg tcaccagtaa gtgcaggcag catttcctac atccttctct 60

gggccctggg tccgtctccc ctctacccct ccagcctgaa tttgcagttc ttcccatgtc 120

<210> 468

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 468

gggccctggg tccgtctccc ctctacccct ccagcctgaa tttgcagttc ttcccatgtc 60

tgcttgctac ttttcaactt tgttttttgc cccttttgaa atttggtcaa acgaagcgag 120

<210> 469

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 469

tgcttgctac ttttcaactt tgttttttgc cccttttgaa atttggtcaa acgaagcgag 60

aatgaatcaa acattggttt acaacgaccc caagaaggaa gggagaccca gcagcagaga 120

<210> 470

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 470

aatgaatcaa acattggttt acaacgaccc caagaaggaa gggagaccca gcagcagaga 60

agtcgcctcc cagctgccat gggtgtgatc cgtcccagag ccacagatcc cctgcctctc 120

<210> 471

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 471

agtcgcctcc cagctgccat gggtgtgatc cgtcccagag ccacagatcc cctgcctctc 60

ccctatgcct ccaggatcac ccagcagcct ccatagggca gagggtgtag aggagctggg 120

<210> 472

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 472

ccctatgcct ccaggatcac ccagcagcct ccatagggca gagggtgtag aggagctggg 60

aggggcttga gaggttggcc ctgaggggct ccagccagag tgactctgag cttgtggctt 120

<210> 473

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 473

aggggcttga gaggttggcc ctgaggggct ccagccagag tgactctgag cttgtggctt 60

ggactcgtgg ctgtcatctc ctttctggaa ctctgctgag gcccaggtgg tggtcactgt 120

<210> 474

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 474

ggactcgtgg ctgtcatctc ctttctggaa ctctgctgag gcccaggtgg tggtcactgt 60

ggtgctccca cgtcagtggg atgagaccaa gagcagccgc tgcgtgcagc tgcccacgtg 120

<210> 475

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 475

ggtgctccca cgtcagtggg atgagaccaa gagcagccgc tgcgtgcagc tgcccacgtg 60

tcattcagag gacagccgag tggccgcctg ggaaggcagt gccgccccaa ggtggcagct 120

<210> 476

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 476

tcattcagag gacagccgag tggccgcctg ggaaggcagt gccgccccaa ggtggcagct 60

gggcagcaga ggagttgtga gcagtctgac aggtccctca ccctcagttt ctcagttttg 120

<210> 477

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 477

gggcagcaga ggagttgtga gcagtctgac aggtccctca ccctcagttt ctcagttttg 60

acatcttcaa acttagagtt ggaagagaag ggcaggtgac atgggcccct tatctgaggc 120

<210> 478

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 478

acatcttcaa acttagagtt ggaagagaag ggcaggtgac atgggcccct tatctgaggc 60

actggcacat gaccctgcgt cttctcaggg acctgaaggc tggggaacag gtgaaacagt 120

<210> 479

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 479

actggcacat gaccctgcgt cttctcaggg acctgaaggc tggggaacag gtgaaacagt 60

gtttgtgccc tctgtgttgt agtccagccc caaccatccc aacagccgcc tcttctgtca 120

<210> 480

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 480

gtttgtgccc tctgtgttgt agtccagccc caaccatccc aacagccgcc tcttctgtca 60

ggggccctgc gccatgcagt cccacattgt gagcagcgag tgccccagag acaggtgggt 120

<210> 481

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 481

ggggccctgc gccatgcagt cccacattgt gagcagcgag tgccccagag acaggtgggt 60

ccctgggaag gtgttctctg cacctgtgcc actccactgt agcaggcgcc atcccaggga 120

<210> 482

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 482

ccctgggaag gtgttctctg cacctgtgcc actccactgt agcaggcgcc atcccaggga 60

ggcgtcgcag aggccactca ggtccttctg tgcctgcagg tggcatcctg cacctcagcc 120

<210> 483

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 483

ggcgtcgcag aggccactca ggtccttctg tgcctgcagg tggcatcctg cacctcagcc 60

ctgcccttca gtgaaggctt tgactgtccc tggccacagc actgccagtc cccgacttga 120

<210> 484

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 484

ctgcccttca gtgaaggctt tgactgtccc tggccacagc actgccagtc cccgacttga 60

aggggaaagc agattcatgc agaaaacctt tgtttaccac gccccctgct ggccatcctg 120

<210> 485

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 485

aggggaaagc agattcatgc agaaaacctt tgtttaccac gccccctgct ggccatcctg 60

gggcctgcaa gtccccagga ctgatctgtt gggcatgtcc tcgggtgagg tttaagccac 120

<210> 486

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 486

gggcctgcaa gtccccagga ctgatctgtt gggcatgtcc tcgggtgagg tttaagccac 60

aggacaatgt tgactgagct ttcttgtttt gcttgtagct gatgttttca cgcagattaa 120

<210> 487

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 487

aggacaatgt tgactgagct ttcttgtttt gcttgtagct gatgttttca cgcagattaa 60

agtgttatcg gaatgctgtc aggtccctta atgttagaat tcagggtcat taagtggtgc 120

<210> 488

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 488

agtgttatcg gaatgctgtc aggtccctta atgttagaat tcagggtcat taagtggtgc 60

acacccttca gtgattagga gaaacacagg cggaaataat gattatatga cttacaggcc 120

<210> 489

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 489

acacccttca gtgattagga gaaacacagg cggaaataat gattatatga cttacaggcc 60

cacagcaggc tggaggccac acagaggact ggggccaggc cctggagcat aggcagggga 120

<210> 490

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 490

cacagcaggc tggaggccac acagaggact ggggccaggc cctggagcat aggcagggga 60

cagctgagag ggtggcagcc agccttgtct atcggggagt agggtggggt cactgtatgc 120

<210> 491

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 491

cagctgagag ggtggcagcc agccttgtct atcggggagt agggtggggt cactgtatgc 60

tggtgggcag gtgctcgaat ggatttttta caggaaatgg tggatgccgg gtgcggtggc 120

<210> 492

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 492

gcatcagctt gaggcatttg ggtgtgctgt cccacatctg accccccagg cagcagcctg 60

tgctgtgtgc atgctgtggg cctgggggca gacctcgtgc atgatgacga gtgctgtttg 120

<210> 493

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 493

tgctgtgtgc atgctgtggg cctgggggca gacctcgtgc atgatgacga gtgctgtttg 60

ggtggcagag gctgctggag gagtctgggt ccagcacctg gcaaagcgcg tgatgagcac 120

<210> 494

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 494

ggtggcagag gctgctggag gagtctgggt ccagcacctg gcaaagcgcg tgatgagcac 60

aattaaacag gcaagcagcc cagaggcacc cctgtaactt ggaaccccaa gaagcatgag 120

<210> 495

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 495

aattaaacag gcaagcagcc cagaggcacc cctgtaactt ggaaccccaa gaagcatgag 60

ggcggggtca gcgaggaagt cacgtggttg tgtccagccg ttccaccggg agctggtccc 120

<210> 496

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 496

ggcggggtca gcgaggaagt cacgtggttg tgtccagccg ttccaccggg agctggtccc 60

tgggaggaca ggaaggaact acattgagga actgaggtgg ggggtggaga acgggaagcc 120

<210> 497

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 497

tgggaggaca ggaaggaact acattgagga actgaggtgg ggggtggaga acgggaagcc 60

gtgccaaggg tgactcagcc ctgcttctgg tgtgagaatg ttaaacctat gttgagaatg 120

<210> 498

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 498

gtgccaaggg tgactcagcc ctgcttctgg tgtgagaatg ttaaacctat gttgagaatg 60

aatgctgagg cccctaacct caccaggtac tcgctgcttc acgttgatta agtctctttt 120

<210> 499

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 499

aatgctgagg cccctaacct caccaggtac tcgctgcttc acgttgatta agtctctttt 60

aaaagccaac agctcatcaa ggaagtggat gccaaaacta ctcatggaat tctacagaaa 120

<210> 500

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 500

aaaagccaac agctcatcaa ggaagtggat gccaaaacta ctcatggaat tctacagaaa 60

ccagtggagg ctgacaccga cctcctgggg gatgcaagcc cagcctttgg gagtggcagc 120

<210> 501

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 501

ccagtggagg ctgacaccga cctcctgggg gatgcaagcc cagcctttgg gagtggcagc 60

tccagcgagt ctggcccagg tgccctggct gacctggact gctcaagctc ttcccagagc 120

<210> 502

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 502

tccagcgagt ctggcccagg tgccctggct gacctggact gctcaagctc ttcccagagc 60

ccaggaagtt ctgagaacca aatggtgtct ccaggaaaag tgtctggcag ccctgagcaa 120

<210> 503

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 503

ccaggaagtt ctgagaacca aatggtgtct ccaggaaaag tgtctggcag ccctgagcaa 60

gccgtggagg aaaaccttag ttcctattcc ttagacagaa gagtgacacc cgcctctgag 120

<210> 504

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 504

gccgtggagg aaaaccttag ttcctattcc ttagacagaa gagtgacacc cgcctctgag 60

accctagaag acccttgcag gacagagtcc cagcacaaag cggagactcc gcacggagcc 120

<210> 505

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 505

accctagaag acccttgcag gacagagtcc cagcacaaag cggagactcc gcacggagcc 60

gaggaagaat gcaaagcgga gactccgcac ggagccgagg aggaatgccg gcacggtggg 120

<210> 506

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 506

gaggaagaat gcaaagcgga gactccgcac ggagccgagg aggaatgccg gcacggtggg 60

gtctgtgctc ccgcagcagt ggccacttcg cctcctggtg caatccctaa ggaagcctgc 120

<210> 507

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 507

gtctgtgctc ccgcagcagt ggccacttcg cctcctggtg caatccctaa ggaagcctgc 60

ggaggagcac ccctgcaggg tctgcctggc gaagccctgg gctgccctgc gggtgtgggc 120

<210> 508

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 508

ggaggagcac ccctgcaggg tctgcctggc gaagccctgg gctgccctgc gggtgtgggc 60

acccccgtgc cagcagatgg cactcagacc cttacctgtg cacacacctc tgctcctgag 120

<210> 509

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 509

acccccgtgc cagcagatgg cactcagacc cttacctgtg cacacacctc tgctcctgag 60

agcacagccc caaccaacca cctggtggct ggcagggcca tgaccctgag tcctcaggaa 120

<210> 510

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 510

agcacagccc caaccaacca cctggtggct ggcagggcca tgaccctgag tcctcaggaa 60

gaagtggctg caggccaaat ggccagctcc tcgaggagcg gacctgtaaa actagaattt 120

<210> 511

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 511

gaagtggctg caggccaaat ggccagctcc tcgaggagcg gacctgtaaa actagaattt 60

gatgtatctg atggcgccac cagcaaaagg gcacccccac caaggagact gggagagagg 120

<210> 512

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 512

gatgtatctg atggcgccac cagcaaaagg gcacccccac caaggagact gggagagagg 60

tccggcctca agcctccctt gaggaaagca gcagtgaggc agcaaaaggc cccgcaggag 120

<210> 513

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 513

tccggcctca agcctccctt gaggaaagca gcagtgaggc agcaaaaggc cccgcaggag 60

gtggaggagg acgacggtag gagcggagca ggagaggacc cccccatgcc agcttctcgg 120

<210> 514

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 514

gtggaggagg acgacggtag gagcggagca ggagaggacc cccccatgcc agcttctcgg 60

ggctcttacc acctcgactg ggacaaaatg gatgacccaa acttcatccc gttcggaggt 120

<210> 515

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 515

ggctcttacc acctcgactg ggacaaaatg gatgacccaa acttcatccc gttcggaggt 60

gacaccaagt ctggttgcag tgaggcccag cccccagaaa gccctgagac caggctgggc 120

<210> 516

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 516

gacaccaagt ctggttgcag tgaggcccag cccccagaaa gccctgagac caggctgggc 60

cagccagcgg ctgaacagtt gcatgctggg cctgccacgg aggagccagg tccctgtctg 120

<210> 517

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 517

cagccagcgg ctgaacagtt gcatgctggg cctgccacgg aggagccagg tccctgtctg 60

agccagtaag tgtgaggatg ggatggggag cgtggcgtgg ggcagctgcc ctgcagtgta 120

<210> 518

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 518

agccagtaag tgtgaggatg ggatggggag cgtggcgtgg ggcagctgcc ctgcagtgta 60

tgtggtccag gacccgaggc cagaagtgtc atcagatact cctttgaggc cgggtaggtt 120

<210> 519

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 519

tgtggtccag gacccgaggc cagaagtgtc atcagatact cctttgaggc cgggtaggtt 60

ctgcctgagg aggggcctct ggataaaaac agggctcagg tggctcccag ctgagggtgc 120

<210> 520

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 520

ctgcctgagg aggggcctct ggataaaaac agggctcagg tggctcccag ctgagggtgc 60

ttggccttgc cttggctgcc atgcatctct ttagtgctcc tggcctaagg agggatccaa 120

<210> 521

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 521

ttggccttgc cttggctgcc atgcatctct ttagtgctcc tggcctaagg agggatccaa 60

taagggcggg ctcaggccag aagccaaatg caaccaaccc tgggcaggac cctgtccccc 120

<210> 522

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 522

taagggcggg ctcaggccag aagccaaatg caaccaaccc tgggcaggac cctgtccccc 60

agtcatgttc ctcctcaggt gaacttgact tgggtgtgta actccaaaag ccaggcaaag 120

<210> 523

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 523

agtcatgttc ctcctcaggt gaacttgact tgggtgtgta actccaaaag ccaggcaaag 60

cctgttactg cctgggtggc gtccgctgct tgctggggtc ttggccgtgg gtctgctgcc 120

<210> 524

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 524

cctgttactg cctgggtggc gtccgctgct tgctggggtc ttggccgtgg gtctgctgcc 60

tcctggctga atggtcttag gctacatctc ctagagttgc tcagtgggag attgtcctgc 120

<210> 525

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 525

tgggtggctt gctgcccaca cctgccccag cctccacatt tgaagccttt tgtcagtttc 60

acagtaaaag ggatgtactc atccttgtga ttccctttgg ctgcatcgtg ctgactttag 120

<210> 526

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 526

acagtaaaag ggatgtactc atccttgtga ttccctttgg ctgcatcgtg ctgactttag 60

agctcccagc ctgcttctcc cagagctggc aggcaaggcg cgtgttttcc tgctgggtga 120

<210> 527

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 527

agctcccagc ctgcttctcc cagagctggc aggcaaggcg cgtgttttcc tgctgggtga 60

ggttggtgag gcagttttgt ggccaggtcg cttgggacag ccccatgcct ggcacgctct 120

<210> 528

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 528

ggttggtgag gcagttttgt ggccaggtcg cttgggacag ccccatgcct ggcacgctct 60

agctgaatgt tcacgtggcc ggcacagcag tgcagggaaa ggcgatggca gctcagtgct 120

<210> 529

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 529

agctgaatgt tcacgtggcc ggcacagcag tgcagggaaa ggcgatggca gctcagtgct 60

ggagcagggg acgccggggt tatggggtgg ggggcatggg cctctgctga ctctgtctcc 120

<210> 530

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 530

ggagcagggg acgccggggt tatggggtgg ggggcatggg cctctgctga ctctgtctcc 60

ccaggcagct gcattcagcc tcagcggagg acacgcctgt ggtgcagttg gcagccgaga 120

<210> 531

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 531

ccaggcagct gcattcagcc tcagcggagg acacgcctgt ggtgcagttg gcagccgaga 60

ccccaacagc agagagcaag gtaaggggtg cttgtgtggg tacctgtgct cctggcctgg 120

<210> 532

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 532

ccccaacagc agagagcaag gtaaggggtg cttgtgtggg tacctgtgct cctggcctgg 60

tcgtgtagaa gagtagcagg cagtggaagc ccccagcagc cttgggtgac ggggtgggat 120

<210> 533

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 533

tcgtgtagaa gagtagcagg cagtggaagc ccccagcagc cttgggtgac ggggtgggat 60

gtcccgctcc ctctccccca agtctacttc aacaaggttg tggggaggca aagccacacc 120

<210> 534

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 534

gtcccgctcc ctctccccca agtctacttc aacaaggttg tggggaggca aagccacacc 60

ccaagtacct tgactgcact gcacagggtg actctgccct ttcctccagg agagagcctt 120

<210> 535

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 535

ccaagtacct tgactgcact gcacagggtg actctgccct ttcctccagg agagagcctt 60

gaactctgcc agcacctcgc ttcccacaag ctgtccaggc agtgagccag tgcccaccca 120

<210> 536

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 536

gaactctgcc agcacctcgc ttcccacaag ctgtccaggc agtgagccag tgcccaccca 60

tcagcagggg cagcctgcct tggagctgaa agaggagagc ttcagagacc ccgctgaggg 120

<210> 537

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 537

tcagcagggg cagcctgcct tggagctgaa agaggagagc ttcagagacc ccgctgaggg 60

tacgttgcct ggcacagacg tcacacacag tctgcccgga ggggatcccg tgagcacttg 120

<210> 538

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 538

tacgttgcct ggcacagacg tcacacacag tctgcccgga ggggatcccg tgagcacttg 60

ggcagctcga gacacctgca tcatcggcag gtggtcattt cgcaggcagt tgggtccctt 120

<210> 539

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 539

ggcagctcga gacacctgca tcatcggcag gtggtcattt cgcaggcagt tgggtccctt 60

gactttgaat gactcatgca caaacttgtg gtttgtcaaa acttagtcag tgttaggaga 120

<210> 540

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 540

gactttgaat gactcatgca caaacttgtg gtttgtcaaa acttagtcag tgttaggaga 60

gcagggctca tacctttaac ataaaagact tctagaaatg gaaactgtag actcaggaaa 120

<210> 541

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 541

gcagggctca tacctttaac ataaaagact tctagaaatg gaaactgtag actcaggaaa 60

atgagcagga gaggtgaaca atgcagtgcg ctaatgagat acaagtgtag agtcaacaac 120

<210> 542

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 542

tgcagttaaa taaatacggt ttgtccgtaa gattggaggc tgcagttaaa taaatacggt 60

ttgtccgtaa gattggaggc tgcagttaaa taaatacggt ttgtccgtaa gattggaggc 120

<210> 543

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 543

aataaatacg gtttgtccgt aagattggaa ggtggaacgg tccttaaatt aaagtgcatt 60

tggtaggaat tgatggctga gttgttttaa aggacacaca gccaggtggg tataagatct 120

<210> 544

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 544

tggtaggaat tgatggctga gttgttttaa aggacacaca gccaggtggg tataagatct 60

caatttagag aactgaaaac ccaggcacac agcagacacg aatggcatgt agggtttgtc 120

<210> 545

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 545

caatttagag aactgaaaac ccaggcacac agcagacacg aatggcatgt agggtttgtc 60

gctgacagga tagttgtggg ccgccaccat gtggggatat cagctcagct gggatgggcc 120

<210> 546

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 546

gctgacagga tagttgtggg ccgccaccat gtggggatat cagctcagct gggatgggcc 60

tgtcaccctc acgcaggatc cctggaatca cacagcacgg ccttctgtgt ccggcgtctc 120

<210> 547

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 547

tgtcaccctc acgcaggatc cctggaatca cacagcacgg ccttctgtgt ccggcgtctc 60

cctcggggag gtgtgtttcc gagtcctggc catgctggag caggtgtggg tgctcctgtc 120

<210> 548

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 548

cctcggggag gtgtgtttcc gagtcctggc catgctggag caggtgtggg tgctcctgtc 60

cttgccgtgg cagcttggct tcacatcatc ttatccattc attcatggat ttgctggttt 120

<210> 549

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 549

cttgccgtgg cagcttggct tcacatcatc ttatccattc attcatggat ttgctggttt 60

ctgcttttta gctgtcagga gtagtgctgc ctcgaatgtt caggtgtaag ttctatgtgg 120

<210> 550

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 550

ctgcttttta gctgtcagga gtagtgctgc ctcgaatgtt caggtgtaag ttctatgtgg 60

atgtattctt ccatttctcc tggatacata gctaggagtg gagtcgctgg tcacagtaac 120

<210> 551

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 551

atgtattctt ccatttctcc tggatacata gctaggagtg gagtcgctgg tcacagtaac 60

tctgctcacc ttttagctac caggtggcct tccagagtgg ctgcagtgtt tcacattccc 120

<210> 552

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 552

tctgctcacc ttttagctac caggtggcct tccagagtgg ctgcagtgtt tcacattccc 60

actggcagtt ataagagagc tccagtttct ccacatcctc gccagcgctg cttgtctgtc 120

<210> 553

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 553

actggcagtt ataagagagc tccagtttct ccacatcctc gccagcgctg cttgtctgtc 60

ttgttgatcc tagacttcca gcgggtggga agcggatctg gttgcggttt tgatttgcag 120

<210> 554

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 554

ttgttgatcc tagacttcca gcgggtggga agcggatctg gttgcggttt tgatttgcag 60

ttcccaggtg gctcatgaac gagcgtcttt ttatgtgctc gttggatatc ttctttggga 120

<210> 555

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 555

ttcccaggtg gctcatgaac gagcgtcttt ttatgtgctc gttggatatc ttctttggga 60

aagtgtctgt cgagatccct tgtccattga gccacttatg tttttattac tgagttttaa 120

<210> 556

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 556

aagtgtctgt cgagatccct tgtccattga gccacttatg tttttattac tgagttttaa 60

gaggtaaatc ccttttattc aagaagtgag ggaaaggaaa aaatacaaag ttaagtccct 120

<210> 557

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 557

gacaaggcca tagcagagaa ggacctacaa gtttttgcta gactaaataa ttggcaaccg 60

ttttttagct taattgagaa aaggagagaa tgagcaaata ctgctaggca tgaagaaagg 120

<210> 558

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 558

ccacccttag ttttaatcaa aagttatatt atcaaaaatt aaaagacttg tctagggtaa 60

ttttaaagac taatagttct caaccagagc agttttgccc ccgcctttcc ccagatgttt 120

<210> 559

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 559

ttttaaagac taatagttct caaccagagc agttttgccc ccgcctttcc ccagatgttt 60

gtggttgtca cacctggagg tgctgctggc agggagtggg tagaggctgg ggatgccgct 120

<210> 560

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 560

gtggttgtca cacctggagg tgctgctggc agggagtggg tagaggctgg ggatgccgct 60

cagcaccctg cggtgcccag gaggcgcctg ccgcagacag cagtcaggcc ccgaacatcc 120

<210> 561

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 561

cagcaccctg cggtgcccag gaggcgcctg ccgcagacag cagtcaggcc ccgaacatcc 60

acacctccaa gggaggaaat actgctggct ggaatgatcc tgcctcactg agtgctgagg 120

<210> 562

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 562

acacctccaa gggaggaaat actgctggct ggaatgatcc tgcctcactg agtgctgagg 60

gagacaccag cccgccgccc ttagggccct ggtgaggggc gatggcggcg gcatgattca 120

<210> 563

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 563

gagacaccag cccgccgccc ttagggccct ggtgaggggc gatggcggcg gcatgattca 60

ctcctctcag ttctaggcac gggcgcggag gtggattacc tggagcagtt tggaacttcc 120

<210> 564

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 564

ctcctctcag ttctaggcac gggcgcggag gtggattacc tggagcagtt tggaacttcc 60

tcggtaggta ccaggcaatt ccgcgaagcc tcacccacag ggtgtccgag agcagccacg 120

<210> 565

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 565

tcggtaggta ccaggcaatt ccgcgaagcc tcacccacag ggtgtccgag agcagccacg 60

gcaggtcttg cccccggagc gtcccttggt gcccacgtcc ccccagctgc acacaggccc 120

<210> 566

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 566

gcaggtcttg cccccggagc gtcccttggt gcccacgtcc ccccagctgc acacaggccc 60

aggcattgtg gcgggctgtg aatccagggc cccttctgca gcacctcctc taagtggtgt 120

<210> 567

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 567

aggcattgtg gcgggctgtg aatccagggc cccttctgca gcacctcctc taagtggtgt 60

cctgtggcag ggctctaggg ctctctacct ggtgcctagc ccaggatgaa actctgacac 120

<210> 568

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 568

cctgtggcag ggctctaggg ctctctacct ggtgcctagc ccaggatgaa actctgacac 60

gctgtgctgc tgggaatggt ggtgtctcgg gcagggttgt gggtgaccgg gggtgggagt 120

<210> 569

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 569

gctgtgctgc tgggaatggt ggtgtctcgg gcagggttgt gggtgaccgg gggtgggagt 60

gtgcgggtga ccgggggtgg gagtgtgcag gtgacctccc tggcccttag cccccgtgtg 120

<210> 570

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 570

gtgcgggtga ccgggggtgg gagtgtgcag gtgacctccc tggcccttag cccccgtgtg 60

tgttagggga tggcagtcag acctgatcac ttgccctctt gtccccagtt taaggagtcg 120

<210> 571

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 571

tgttagggga tggcagtcag acctgatcac ttgccctctt gtccccagtt taaggagtcg 60

gccttgagga agcagtcctt atacctcaag ttcgaccccc tcctgaggga cagtcctggt 120

<210> 572

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 572

gccttgagga agcagtcctt atacctcaag ttcgaccccc tcctgaggga cagtcctggt 60

agaccagtgc ccgtggccac cgagaccagc aggtatgtgc gccggccctc cctcatgcat 120

<210> 573

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 573

agaccagtgc ccgtggccac cgagaccagc aggtatgtgc gccggccctc cctcatgcat 60

gaagccttga gtgtgggaag actggaggct gttcctaggt gtgctgtctg cacagaggct 120

<210> 574

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 574

gaagccttga gtgtgggaag actggaggct gttcctaggt gtgctgtctg cacagaggct 60

tctagaccgg ggggagatga tcagaactgg aaaggagctg tgctaggggt gggctgggca 120

<210> 575

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 575

tctagaccgg ggggagatga tcagaactgg aaaggagctg tgctaggggt gggctgggca 60

gcaaggccag agcagccctt gtgtgtctgg caggagcaac ggcagcctac cctccagcca 120

<210> 576

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 576

gcaaggccag agcagccctt gtgtgtctgg caggagcaac ggcagcctac cctccagcca 60

cagggctgct gccttgctgg ttacagccac cgttctaggt atattaaaga tctaaactta 120

<210> 577

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 577

gcaaactatc acctgtgggc cagacttggc cactgcctgt ttgtgtaaag ttttatcgtc 60

acagagccat gcccgttcct ttgcaaattg tggcaacttt cacactacaa ggccagaact 120

<210> 578

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 578

acagagccat gcccgttcct ttgcaaattg tggcaacttt cacactacaa ggccagaact 60

gagtagtgtg acagaggctg tgtggccttc aaatcctaac acatggccgg gcgcagtggc 120

<210> 579

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 579

aacagccccc tgatgaggca gcactggctc cgctcagcct gcagtgggta atgaagcgtc 60

accgtgctct cccggaagga caagcagcca cgtgggatgg gcaggtgagg gaggggggca 120

<210> 580

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 580

accgtgctct cccggaagga caagcagcca cgtgggatgg gcaggtgagg gaggggggca 60

cggagcagca gagaggccgg gcatgctgga tgcgggtctg cgttttctac cactaccctg 120

<210> 581

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 581

cggagcagca gagaggccgg gcatgctgga tgcgggtctg cgttttctac cactaccctg 60

acttgagtgg ttttaaacta aaaagcaaag agcccggtta gcttgtccac atggtcctct 120

<210> 582

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 582

acttgagtgg ttttaaacta aaaagcaaag agcccggtta gcttgtccac atggtcctct 60

gtgtcctact caacactggg agggcctagt gactgaggct gcctctgctt ggtggcagca 120

<210> 583

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 583

gtgtcctact caacactggg agggcctagt gactgaggct gcctctgctt ggtggcagca 60

tgcacggtgc aaatgagact ccctcaggac gtccgcggga agccaagctt gtggagttcg 120

<210> 584

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 584

tgcacggtgc aaatgagact ccctcaggac gtccgcggga agccaagctt gtggagttcg 60

atttcttggg agcactggac attcctgtaa gtccttgagt ccctcttgaa ctgtcttgtg 120

<210> 585

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 585

atttcttggg agcactggac attcctgtaa gtccttgagt ccctcttgaa ctgtcttgtg 60

tgtggtctga gggaacgagt tgttttaagg gcctatattt tctattcctg ggggtctgag 120

<210> 586

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 586

tgtggtctga gggaacgagt tgttttaagg gcctatattt tctattcctg ggggtctgag 60

cctttggttt tgttgggggc atggggccgc tgtgctgttc cctcgccgca ctgtctcggg 120

<210> 587

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 587

cctttggttt tgttgggggc atggggccgc tgtgctgttc cctcgccgca ctgtctcggg 60

tccctcatgc actgtctgag gctcttggcc tgtgtgggcc tttcctccct cacactaggt 120

<210> 588

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 588

tccctcatgc actgtctgag gctcttggcc tgtgtgggcc tttcctccct cacactaggt 60

cagaggtaag aggcaagggc gaaatgggtt cctgtttcat ccccatctcc cgcaggtgcc 120

<210> 589

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 589

cagaggtaag aggcaagggc gaaatgggtt cctgtttcat ccccatctcc cgcaggtgcc 60

aggcccaccc ccaggtgttc ccgcgcctgg gggcccaccc ctgtccaccg gacctatagt 120

<210> 590

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 590

aggcccaccc ccaggtgttc ccgcgcctgg gggcccaccc ctgtccaccg gacctatagt 60

ggacctgctc cagtacagcc agaaggacct ggatgcagtg gtaaggacgc aggtagtagc 120

<210> 591

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 591

ggacctgctc cagtacagcc agaaggacct ggatgcagtg gtaaggacgc aggtagtagc 60

tattccacag aacctgcagg ccgctctggg gcttggccaa cagtgggcag gggtccaaca 120

<210> 592

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 592

tattccacag aacctgcagg ccgctctggg gcttggccaa cagtgggcag gggtccaaca 60

gcctgacccg ccatccctgc catccctgcc cctgctggtt ggggtggaat tgcagagagc 120

<210> 593

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 593

gcctgacccg ccatccctgc catccctgcc cctgctggtt ggggtggaat tgcagagagc 60

tgccggcccc tggcctgtca ctactgccca ggtcgctgag ggtccaggct tccacccagt 120

<210> 594

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 594

tgccggcccc tggcctgtca ctactgccca ggtcgctgag ggtccaggct tccacccagt 60

gtccccgcag tcagctgccc accagcagcc tccccgggac tctccggcct gggcatggcg 120

<210> 595

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 595

gtccccgcag tcagctgccc accagcagcc tccccgggac tctccggcct gggcatggcg 60

ttggcctctg gtggccttgc agcagtgagt gtggttcttg ctgccgtgag cccgagtgtc 120

<210> 596

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 596

ttggcctctg gtggccttgc agcagtgagt gtggttcttg ctgccgtgag cccgagtgtc 60

gcccctttcc tcccgccctc ccacgagtcc agacgcatct cctggcagct taggaagctc 120

<210> 597

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 597

gcccctttcc tcccgccctc ccacgagtcc agacgcatct cctggcagct taggaagctc 60

catcttcacc caccccacat ctgagggtcc cgtgccttgt ctccctccat cctcactgta 120

<210> 598

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 598

catcttcacc caccccacat ctgagggtcc cgtgccttgt ctccctccat cctcactgta 60

catgccaggc ttcagcctgt tctaactccg ggcctaaatt gtccctaaga gagctgtagg 120

<210> 599

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 599

catgccaggc ttcagcctgt tctaactccg ggcctaaatt gtccctaaga gagctgtagg 60

cacacaaagg ggctgggtgt ctgcaggcac cactgtgagc taccgtcgcc agatggtccc 120

<210> 600

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 600

cacacaaagg ggctgggtgt ctgcaggcac cactgtgagc taccgtcgcc agatggtccc 60

cagggaggtg cagacagggt ggttccggag gccggctggc agggctgggt tcaagcccca 120

<210> 601

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 601

cagggaggtg cagacagggt ggttccggag gccggctggc agggctgggt tcaagcccca 60

acatccacac cagtgttgtt cacagtggcc ccaggtgtca tctccgcaga ggcctgtgat 120

<210> 602

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 602

acatccacac cagtgttgtt cacagtggcc ccaggtgtca tctccgcaga ggcctgtgat 60

gtggccctga ccccgtaccc caacaacctc cttccctgtg tcagagcccg tgtgagtaac 120

<210> 603

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 603

gtggccctga ccccgtaccc caacaacctc cttccctgtg tcagagcccg tgtgagtaac 60

ccaatagcag gcctggggac cacagtgtgg ctggccccct cctctgcagg cctgggctcc 120

<210> 604

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 604

ccaatagcag gcctggggac cacagtgtgg ctggccccct cctctgcagg cctgggctcc 60

gggggcaggt ggcccctgca tgtaacttat gttagaaatg cacaatgctt gttctctggt 120

<210> 605

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 605

ctgccactgg gctgcggggg cagctgcagg gacacacacc tgttgggtgc ctgctggttc 60

cacccaggag cacagccagc agcctcatgc ctcctgcccc ctggcagtcg ggtgcacgtg 120

<210> 606

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 606

cacccaggag cacagccagc agcctcatgc ctcctgcccc ctggcagtcg ggtgcacgtg 60

gagcaggtgg ccttggcctc gacagggttc ccagggtccc actggaagcc ccacatggaa 120

<210> 607

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 607

gagcaggtgg ccttggcctc gacagggttc ccagggtccc actggaagcc ccacatggaa 60

ctgtgcctct gggacattgc tccagggacc tcgggtgcgg gctggcccca tcctgtgggg 120

<210> 608

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 608

ctgtgcctct gggacattgc tccagggacc tcgggtgcgg gctggcccca tcctgtgggg 60

aggtcctggg agggtcagtc tggcccgcct gcctgctgac ttgggtgtgg cctgagcagg 120

<210> 609

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 609

aggtcctggg agggtcagtc tggcccgcct gcctgctgac ttgggtgtgg cctgagcagg 60

taaaggcgac acaggaggag aaccgggagc tgaggagcag gtgtgaggag ctccacggga 120

<210> 610

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 610

taaaggcgac acaggaggag aaccgggagc tgaggagcag gtgtgaggag ctccacggga 60

agaacctgga actggggtaa ggaggccccg tctcctgtcc tccccgtccc catccccctc 120

<210> 611

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 611

agaacctgga actggggtaa ggaggccccg tctcctgtcc tccccgtccc catccccctc 60

gccatccttg tccccatccc cctcgccatc cttgtcccca tccccctcgc catccctgtc 120

<210> 612

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 612

gccatccttg tccccatccc cctcgccatc cttgtcccca tccccctcgc catccctgtc 60

cccgtcccca tccccacctg gcctgggacc gctgggcacc cgaggcaatg gctgtgtgtc 120

<210> 613

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 613

cccgtcccca tccccacctg gcctgggacc gctgggcacc cgaggcaatg gctgtgtgtc 60

tgttctcctc ccacaggaag atcatggaca ggttcgaaga ggttgtgtac caggccatgg 120

<210> 614

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 614

tgttctcctc ccacaggaag atcatggaca ggttcgaaga ggttgtgtac caggccatgg 60

gtgagtgccc gggccaccga ggccacgtgc ctccacgagg ggctgcctat gccccaccct 120

<210> 615

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 615

gtgagtgccc gggccaccga ggccacgtgc ctccacgagg ggctgcctat gccccaccct 60

ggccctgccc tgcaccctgc ctaggacccc accctcctga ggcccctttt cctaacacac 120

<210> 616

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 616

ggccctgccc tgcaccctgc ctaggacccc accctcctga ggcccctttt cctaacacac 60

gagtcccttc aacatgggcc cggccgtgga agcactgagg cgagttgcgg ggaagctggt 120

<210> 617

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 617

gagtcccttc aacatgggcc cggccgtgga agcactgagg cgagttgcgg ggaagctggt 60

ggtagtgagg ctggtggctc ccacggagcc agggcttggc aggccccaca gttgtgcaga 120

<210> 618

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 618

ggtagtgagg ctggtggctc ccacggagcc agggcttggc aggccccaca gttgtgcaga 60

tgctgagcta gcagtggggc tgtggtggga gcagagtctg tcccgccgtg gcctacccca 120

<210> 619

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 619

tgctgagcta gcagtggggc tgtggtggga gcagagtctg tcccgccgtg gcctacccca 60

ctccaccctg ccctcgccgt gcggctatgt ctagcagcag cctctgtagg tgtctggcag 120

<210> 620

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 620

ctccaccctg ccctcgccgt gcggctatgt ctagcagcag cctctgtagg tgtctggcag 60

gacgggaaca ccaggcctca tctggcctcc caaaagcttg ggctcctgga ggtgctactg 120

<210> 621

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 621

gacgggaaca ccaggcctca tctggcctcc caaaagcttg ggctcctgga ggtgctactg 60

tggggatctg tcttaggctg agtgtcagcc ggcggcaggt gaccgcctgg cccttgcagt 120

<210> 622

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 622

tggggatctg tcttaggctg agtgtcagcc ggcggcaggt gaccgcctgg cccttgcagt 60

ccctccagga ccaccacgaa gcacgacgca catcctggag ctcgccatac cggctcccag 120

<210> 623

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 623

ccctccagga ccaccacgaa gcacgacgca catcctggag ctcgccatac cggctcccag 60

gcctcaccct aggctctagg gtgttgggcg ccgcctcttc agggacctct ggcccaggct 120

<210> 624

<211> 120

<212> DNA

<213> Artificial

<220>

<221> misc_binding

<223> Probe

<400> 624

gcctcaccct aggctctagg gtgttgggcg ccgcctcttc agggacctct ggcccaggct 60

ccagttccct gcggatctga tgtggaggaa acagctgttt cctgggcttt gcatccggcc 120

Claims (9)

1. The probe combination for detecting the gene fusion of the human gene FGFR1/2/3 comprises a probe with a probe sequence of SEQ ID No. 1-624.

2. The probe combination of claim 1, wherein the human gene FGFR1/2/3 gene fusion comprises FGFR2-COL14A1, FGFR3-TACC3, and FGFR3-BAIAP2L1.

3. Use of a combination of probes according to claim 1 or 2 for the preparation of a kit for the detection of the human gene FGFR1/2/3 gene fusion in a sample from a subject.

4. The use of claim 3, wherein the sample comprises a tissue biopsy sample, an FFPE sample, and a cfDNA sample, and the subject is a normal healthy subject, a subject suspected or diagnosed as having a disease.

5. The use of claim 3, wherein the sample comprises a DNA sample and liquid biopsy plasma.

6. The use of claim 4, wherein the disease is cancer.

7. A kit for detecting a human gene FGFR1/2/3 gene fusion comprising a capture reagent comprising the probe combination of claim 1 or 2.

8. The kit of claim 7, further comprising one or more of: 1) a library building reagent, 2) a capture reagent other than a probe, 3) a solid support, and/or 4) a high throughput sequencing reagent.

9. The kit of claim 8, wherein the pooling reagents comprise a DNA polymerase, a ligase, a buffer and/or a quality control; the capture reagent other than the probe comprises a blocking agent, a capture buffer and/or a washing solution; the solid phase carrier comprises magnetic beads.

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