CN106202996A - A kind of for the evaluation methodology of analysis of biological information technology used by high-flux sequence SNP - Google Patents
A kind of for the evaluation methodology of analysis of biological information technology used by high-flux sequence SNP Download PDFInfo
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- CN106202996A CN106202996A CN201610566384.2A CN201610566384A CN106202996A CN 106202996 A CN106202996 A CN 106202996A CN 201610566384 A CN201610566384 A CN 201610566384A CN 106202996 A CN106202996 A CN 106202996A
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16B—BIOINFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR GENETIC OR PROTEIN-RELATED DATA PROCESSING IN COMPUTATIONAL MOLECULAR BIOLOGY
- G16B30/00—ICT specially adapted for sequence analysis involving nucleotides or amino acids
Abstract
The invention discloses a kind of for the evaluation methodology of analysis of biological information technology used by high-flux sequence SNP, this evaluation methodology is by double for 134 nucleotide sequence elder generation stochastic generation 100 layers of known 402 SNP end sequencing sequences, analysis of biological information technology is used to carry out information analysis again together with the high-flux sequence sequence treating analysis of biological information, then the recall rate of known 402 SNP site and accuracy rate in checking information analysis result, thus evaluate accuracy and the data reliability of this analysis of biological information technology.The present invention is applicable to snp analysis flow and method and the assessment of analytical data reliability of any high-throughput techniques sequencing data, analytical data directly can be estimated under the conditions of Standard Operating Procedure by this evaluation methodology, can save the most unnecessary proving time and cost relative to old process.
Description
Technical field
The present invention relates to biological technical field, particularly relate to high throughput sequencing technologies, be specifically related to a kind of for high flux
The method that after order-checking SNP, selected analysis of biological information technology is evaluated.
Background technology
It is to study gene at present that single nucleotide polymorphism (Single Nucleotide Polymorphism, SNP) is analyzed
Function, finds the gene relevant to disease and mutational site thereof, and carries out a kind of important research hands of genetic linkage analysis
Section, high-flux sequence SNP is a kind of classical technology in snp analysis method.
In recent years, along with the fast development of genome high throughput sequencing technologies, greatly promote biomedical, life section
The development in etc. field.Genome high throughput sequencing technologies has been applied to clinic at present, and such as family heredopathia hereditism examines
The complex disease personalized medicine such as genetic diagnosis and tumor etc. before disconnected, antenatal genetic diagnosis, Embryonic limb bud cell, simultaneously more and more grind
The person of studying carefully uses high-flux sequence to carry out scientific research.
But, after high-flux sequence, the flow and method of analysis of biological information is uneven, and the data knot after information analysis
Fruit credibility the most uneven, the problem of most critical be data analysis complete after, substantial amounts of data stacking in one file, very
The quality of difficult directly analysis and assessment result, just can determine that the good of used analysis process method after typically will waiting experimental verification
The bad reliability with data.
High throughput sequencing technologies is in addition to the continuous renewal of sequencing technologies, the most mostly important in wide clinical application
Link be exactly accuracy and the reliability of analysis of biological information, how to evaluate mass data through complicated analysis process knot out
Fruit is the most reliable, and currently the only method is by the experimental verification in a large amount of site, and the result is bad, then the information that re-starts is divided
Analysis;Or a lot of researchs tightened up examination condition of direct employing filters more believable SNP experimental verification, the so standard of checking
Really property can be the highest, but weak point is the information dropout that can cause much coming in handy.
Therefore, develop and a kind of can directly assess information analysis flow and method quality and the method for data reliability is the heaviest
Want, significant to high-throughput techniques application in clinic.
Summary of the invention
Present invention aims to the deficiencies in the prior art, it is provided that one can be adopted after high-flux sequence SNP
Analysis of biological information technology carry out quick, directly perceived, the method for effective evaluation.
The above-mentioned purpose of the present invention is achieved by following scheme:
Analysis of biological information technology in order to be used after fast and effeciently verifying high-flux sequence SNP is the most accurate, point
Analysis data are the most credible, and the present inventor obtains conserved sequence from the conservative region of mankind reference genome hg19, and this guarantor
Keep and in sequence, artificially design SNP, then the sequence containing artificial design SNP is carried out the double end sequencing sequence of stochastic generation
(Pair-end Reads), then the Sequence Library generated is verified and screened, finally screening obtains 134 nucleotide sequences
(as shown in SEQ ID NO:1~SEQ ID NO:134), in the Sequence Library that these 134 nucleotide sequences randomly generate every time
All it is bound to include 402 SNP site;Described 402 SNP site are rs.hy00001~rs.hy0000402, specifically believe
Breath is as shown in table 1.
402 SNP site of 1 134 nucleotide sequences of table
The present inventor with 134 nucleotide sequences of these known 402 SNP as internal reference, to analysis of biological information technology
Reasonability and data reliability be evaluated, concrete technical scheme is as follows:
A kind of for the evaluation methodology of analysis of biological information technology used by high-flux sequence SNP, this evaluation methodology is specifically wrapped
Include following steps:
Step 1
By double for 134 the nucleotide sequence stochastic generation 100 layers as shown in SEQ ID NO:1~SEQ ID NO:134 ends
End sequencing sequence;
Step 2
Bio information is used together with all sequences step 1 obtained and the high-flux sequence sequence treating analysis of biological information
Analytical technology carries out information analysis, then tests information analysis result, evaluates this bio information according to assay and divides
The accuracy of analysis technology and data reliability.
In above-mentioned evaluation methodology, 134 nucleotide sequences as shown in SEQ ID NO:1~SEQ ID NO:134 are random
Generate 100 layers of double end sequencing sequence, the Sequence Library of this stochastic generation necessarily includes 402 SNP known to the present invention
Site (rs.hy00001~rs.hy0000402), therefore, all sequences that step 1 is obtained and the height treating analysis of biological information
Flux sequencing sequence uses analysis of biological information technology to carry out information analysis together, then tests information analysis result,
Described inspection content see exactly in information analysis result known to the present invention 402 SNP site (rs.hy00001~
Rs.hy0000402) recall rate and accuracy rate, if recall rate < 95% of 402 SNP site, then illustrate that this bio information divides
Accuracy rate and the data reliability of analysis technology are the most bad, need to optimize;If recall rate >=95% of 402 SNP site, then see it
Whether the genotype of SNP coincide with the genotype of 402 SNP in table 1, if accuracy rate < of genotype 95%, then this life is described
Accuracy rate and the data reliability of thing information analysis techniques are the most bad, need to optimize;If recall rate >=95% of 402 SNP site,
And its genotype compares accuracy rate >=95% with the genotype of 402 SNP in table 1, then this analysis of biological information technology is described
Accuracy and numerical value good reliability.
In above-mentioned evaluation methodology, by 134 nucleotide sequences as shown in SEQ ID NO:1~SEQ ID NO:134 with
Machine generates 100 layers of double end sequencing sequence, and the double end sequencing sequence of described stochastic generation 100 layers uses those skilled in the art's
Routine operation.
In above-mentioned evaluation methodology, the template that analysis of biological information is used is that the mankind are with reference to genome hg19.
Compared with prior art, there is advantages that
1. the evaluation methodology of the present invention is applicable to snp analysis flow and method and the analysis of any high-throughput techniques sequencing data
The assessment of data reliability, the suitability is wide;
2. analytical data directly can be commented under the conditions of SOP (Standard Operating Procedure) by the evaluation methodology of the present invention
Estimate, (after first information analysis, then after experimental verification, just can determine that quality and the data of information analysis flow process relative to conventional flow process
Reliability) the most unnecessary proving time and cost can be saved.
Detailed description of the invention
Below in conjunction with specific embodiment, the present invention is further described through, but the present invention is not appointed by specific embodiment
What limits.
The acquisition of 1 134 nucleotide sequences of embodiment
The present embodiment provides the source of 134 nucleotide sequences as shown in SEQ ID NO:1~SEQ ID NO:134,
Method employed in test is the routine operation of those skilled in the art, comprises the following steps that shown:
Step 1. finds mankind's conservative region with reference to genome hg19
With the mankind with reference to dbSNP (single nucleotide polymorphism data base database of SNP) two-by-two in genome hg19
Between on same chromosome spacing distance be conserved region more than 400bp and the region initial setting on exon region that falls
Territory, and extract the sequence between two SNP according to the position of dbSNP, the sequence obtained is more than 400bp and does not contains fuzzy base
(N) 778 conserved sequences, are found altogether.
Step 2.Blat is verified
With 778 conserved sequences of instrument Blat verification step 1 the mankind with reference to the conservative of genome hg19, it is ensured that sequence
Row can unique comparison on genome;Comparison length is defined as more than or equal to 99% more than the 90% of former sequence, homology
Mate with genome alignment, the sequence with multiple ratio pair is removed, then finally from these 778 conserved sequences, obtain 232
The sequence of unique comparison.
Step 3.Bowtie2 is verified
232 sequences step 2 obtained are verified with Bowtie2 further, and the mankind are similarly hg19 with reference to genome, build
Comparison after mould, finally obtain from these 232 sequences 205 uniquely can comparison to the sequence of genome.
Step 4. removes the sequence of Y chromosome
Owing to Y chromosome research is complete, Y chromosome exists a lot of uncertain sequence, in order to get rid of unnecessary doing
Disturb and the whole of Y chromosome are removed.
205 sequences above-mentioned steps 3 obtained remove the sequence containing Y chromosome, then finally obtain from 205 sequences
To 154 sequences.
Step 5. sets SNP
154 sequences obtained with step 4 set the establishing method of SNP, SNP respectively for subjects: by every sequence
The region of the middle 100bp of row sets 3 SNP, and one of them is heterozygosis SNP, and two is the SNP that isozygotys;Centre position arranges one
Individual SNP (is set as heterozygosis SNP), and then upstream and downstream 50bp at middle SNP respectively arranges a SNP (2 SNP are set as isozygotying
SNP)。
The generation of the random Reads of step 6., verify and screen
Step 5 has been set 100 layers of pair-end reads of 154 sequence every stochastic generation of SNP, will be all
The reads generated bowtie2 comparison to mankind reference genome hg19;Due to each sequence setting library it could also be possible that
Multiple aligned sequences, so to remove the generation sequence of reads by there being multiple ratio, then finally filters out from 154 sequences
Article 135, sequence.
Step 7. second time is got rid of and screening
135 sequences obtaining of step 6 screening are regenerated pair-end reads, with after bowtie2 comparison again
The SNP that step 5 sets is found, found that 135 sequences have a sequence because snp is positioned at samtools and bcftools
Repeat base edge and do not find out (AAAA t/a TTTT), after this sequence being got rid of, then finally give 134 sequences
Row, its nucleotide sequence is as shown in SEQ ID NO:1~SEQ ID NO:134.
Above-mentioned 134 sequences are carried out repeated authentication, it is ensured that its reads every time randomly generated can produce 402 I
The SNP of setting position;Described 402 SNP site are rs.hy00001~rs.hy0000402, and specifying information is as shown in table 1.
Embodiment 2 high-flux sequence SNP analysis of biological information flow process and the evaluation of data reliability
The present embodiment treats that the object of analysis of biological information is:
(1) sample: the exon high-flux sequence sequence of 3 people;
(2) internal reference: 134 sequences of embodiment 1.
The present embodiment uses analysis of biological information technology to be first to use bowtie2 comparison, then generates SNP with samtools.
The evaluation methodology of the present embodiment, it concretely comprises the following steps:
Step 1
The exon sequencing data of 3 people is randomly drawed respectively and obtains 90 layers of pair-endreads;
134 sequence stochastic generation of embodiment 1 are contained the 100 layers of pair-end reads setting SNP;
Step 2
By all sequences bowtie2 comparison of step 1 to the mankind with reference to genome hg19 (bowtie2 parameter is:
Bowtie2-D 20-R 3-N 0-L 20-i S, 1,0.50), the unique reads samtools screened is generated
Then all SNP generated are tested by SNP (parameter of samtools uses the parameter giving tacit consent to call snp), specifically interior
Appearance is whether 402 SNP (rs.hy00001~rs.hy0000402) of our setting of inspection can verify that in the SNP generated
Out, and whether whether the SNP tested out coincide with our the SNP genotype of setting, and assay is as shown in table 2.
Table 2 sets sensitivity and the accuracy that SNP simulates at truthful data
From table 2 it can be seen that in the SNP of all generations, 402 SNP (rs.hy00001~rs.hy0000402)
Recall rate is all higher than 97.5%, and accuracy all reaches 100%, the analysis of biological information technology that therefore explanation the present embodiment uses
Accuracy and susceptiveness the highest, data reliability is the highest.
SEQUENCE LISTING
<110>Guangzhou Tai Yin bio tech ltd
<120>a kind of for the evaluation methodology of analysis of biological information technology used by high-flux sequence SNP
<130>
<160> 134
<210> 1
<211> 457
<212> DNA
<213>mankind are with reference to genome hg19
<400> 1
GCGGGCAGCG GCGGCGGAGC AGCTGCGGGA GCCGCAGTGG CTGCTGTGGG ACATCTGTGC 60
CTCGCGTCCC CTGTGCCTTG AGACCCCAAA GCAGCCGACT GCGCCGCCAC CATCCTCGCG 120
TTGCCGGGTG GGGCGACGTG CTCCCCGGCC AGGAGCCTCC ACCGCTCCGG ACCCTGGCCC 180
TATGTCGCCG CTCTCGCCCG CCGCCGCCGC GGAGTGGGAG TGGGGAGGAG GGGAACAGTC 240
CTTGGAGCCG GCCCCGGGAG TACTCCCGGA GCCTGCCGCC CTGGAAGCCG CCACGATGGA 300
CCGGGCTGAG TCGCCCGCCG GAGGGGAAGC AGTGTAGTCG GGCACGGAGG GGCAGGCAGA 360
GAGGGGCCCC AAGGCGGAGC TGGGTCCGGG GCGGAGCGGT GTTCGCACAC AAAGCGCTGG 420
GGCTGGACCC AGGGTTCGGG GCCAAGGCGA GAAGTGG 457
<210> 2
<211> 548
<212> DNA
<213>mankind are with reference to genome hg19
<400> 2
AGCGCTCACC GCCCGCCCCC GGCCGCCGCC GCCGCCGCCG GCCGCGGCCC CCTCATCCCC 60
TGCCCGCCTC CCGAGCGCGA CACTCCGCGG TGGGGGCGCC CCGGCGGCCC GGCCGCCCCC 120
CCGGGCCCGG CTGGCAGCGA CGGCGCCCGG CCGGGCGGCT CAGGCAGTCC CCGAGAACAT 180
GGTGCCGCCG CCGCCGCCGC CTCGCTCCCC CCCCGCGCCC CACTTAATGA ATTCGCTCGC 240
GGCCCGACGA CGAGGGGGCT CCGGGCTCCG CTCCCGGCCC GCGGCCCGCC GCCGCCGCCG 300
CCGTGAGGAA AAACAATGCG CCGAGCGGGG TCGCCGCCGC CGCCGCGGCC CCCCCACCCC 360
CCGTTCCGCC GCCGCCGCCG CCGCTGCCGC CGCCGCCGCC GCCGGGCTCC GGGAGGCCGA 420
GCCGAGAGGC GAGCGGGGCC GCCGGGGCGG GCGCCGAGGG CCGGGCGGAG CGGGCCGGCC 480
GGGCGGAGCG GGGTGCGCGG GCGGTTGTGG GGCCCGGGAC CGGCGGGGCC GAGTAGATCG 540
CGCTCGAA 548
<210> 3
<211> 403
<212> DNA
<213>mankind are with reference to genome hg19
<400> 3
GTTGCGGTAC GAGATGCTCC CCTTGTAGCT GACCCGGAGC ACGGCGCGCT GCTGGATCAG 60
TTTCTCGAGC TCGGCGCGCG TGCGCTCCGG CTCCGGGCCG TGCCGCCGCC GCACCATCCG 120
GCAGATGCGC TCCAGGTCCG GCCGCGCCTT GCGCGAGCGC AGCGAGTCGA TGGTGTCCAG 180
GATCCACTCT TGGTAGTGCG GGGAAGCGGC GGACGACGAG GCGGCGGCCG CCGTGGTGGC 240
GGCCGCCGCC GTCTCCGGCG GGGGTAGGGC CGGGGGCCCC GCCATGCCTC CCGCCCGGCC 300
CGGCTGCACC GTGCGCGCTG CCTCCCTCCC AGCGCGGCGC CCCCCTCCCC GGCTCCCCTC 360
CCTCCGCCGC TGCCCGCCTC CTCCGCCTCC CCCCCCGGGG GGC 403
<210> 4
<211> 570
<212> DNA
<213>mankind are with reference to genome hg19
<400> 4
GGGCCGGGGC CGGGAACACG CGCCGCAGGG GCTCGGGGCC GCACGCGGCG CCCATCGGCA 60
GCGTCGATCT CCGCAGTGGA GCGCCAGCGA CGGCAGGACC CTGCGGCCTG GGCCGCCAGC 120
GTGGGCGCTG GGCCGCGGCG TGGCCGTGGA GGCCGAGGCT CTTCCCGCTC CGCCGTGGGG 180
TACTTAGGGG GCCCCGAAGG GACCGCGGAG GCGCGGCCCA GCAGGCTGGT CTCAGACTGG 240
GAGCGCGAGG CCTTGCGGGC CCTGGGCGAG CCGCGGCGGC CCGAAGCCTC GGCCATGCGT 300
CCACGGCGGC CGGCGGCCCG GGGACGCTCC CGGGGTGGTG ACTGCTCCAC GCTGCGGCCG 360
CGGGTCAGTG GCGGCGGTTT GCGGCGGGCG GCGCGGCCAG GGAGGCCTCG GGTGGCCGCC 420
TGCGCGCCCG GGATGTACTG CGCCTTCACC AAGCGGCCCT CAGCCGGGCT GTCGGGGGGT 480
GAGGGGGCGG CGGGCGGCGC AGCGGGCTCG GGTGCCGCCT CCGACTCCCA CGACGACGCC 540
CAGGCGCGGC TCAAGGCGGC AGGGCTGGTG 570
<210> 5
<211> 401
<212> DNA
<213>mankind are with reference to genome hg19
<400> 5
GAGAGCGCCC GCGGCTGCGC TGCGCTGCGC TCCGGCTCCG CGCGCGAGTG GCTGCTGCTC 60
CGCCAGAGGC GAGCAGGACT CACATCCTCG GCGCGCTGGG GCTCTGGGCG GGGGCCGGGC 120
CGGGCGGGGC CGCGAGCCGG GAGGGAGGAG ACGTCCCTGC GAGCCCGGAG GGCGCGGGAC 180
CGAGGAGGGC GCACCCCGGG AGCCGGGCGG GCCGGTCCTG CGGCGAGTGC GGGCGGCGGC 240
GCCGGTTCGG GGAGGCAGAC TGGGAGCTGC GAGCGGCGGG GCTGCGAGGG GCGGAGGGGG 300
AGGGGAGGGA GAGAGGAGGG AGGGCACCGG GGAGGAAACC CGGAGGGAGG GTGGGGGAGA 360
GAAACCGAGA GGGAGACGGG GCTGAAAAAC AGGGACTGAA A 401
<210> 6
<211> 445
<212> DNA
<213>mankind are with reference to genome hg19
<400> 6
GAGCCCAGAG CAGCGCGGCC ACACTGCCCA GGGGTCGGCC CTCGGCCCCG GCGCTCGGAG 60
CGCGGCGGCT GCCTGGGCTT TAATGGCTGC TCCGCGGAGC AGCGCCTAGG GCTGGAAGGC 120
GGCTGCGGCT CAGGAAGTCA CCCGAGCAAG CCTCCTTCGG GGCCGGCCGC ACCCGCCGCG 180
GCGCGCTCCA TGGGGGCGCG CTCCCCCCGG GCGGCCCGCT GACCCGGGAC GCCGGGGCCC 240
GCTCGCTCGC CGGCCGCGCG TCCCGGCCAT GAACTGAGCC CGCGGGCCAG CCCCGCGCCT 300
GCTCCGCCCG CGCCTTTCTT CTCGCGCCTC CTCCGCCCGC CGCCGGCGGG CCCGGCTCCC 360
CGGGGGCTGC GGCGCCCCGG GCTCGGCGGC CCGCGGGCCC CGGGGCGCGG GGCGGCGGCG 420
GCGGGGGGCG CGCGGCTCCG GGCGC 445
<210> 7
<211> 529
<212> DNA
<213>mankind are with reference to genome hg19
<400> 7
CAAGGGAAGG AAGAGAAGGA GGGGGAGGGA GGAGATGTTA ACGGGCGGGG GGGGGAGAAG 60
GGGGAGGGGG CGGCGGCGGG GGCGGGAGGG GGAAGGGGCC GGCGGGAGCT GCTCTCGTCT 120
CGTCGGTCGC GGCGCCTGCA GTCTGGAGGC GCACCGGAGC GGCCGGGGCG TCCCCCGCGG 180
GAGCCCGCAG CCACCCGGGA CGCGCATCCA GACGTGGCGC TTCGGACCGG GCACGCTGCG 240
CCCGGGGGCT CGGCGGACCC CGCGTAGCCG CCGCTTCGGA GCTTGTGCGG CGCGGGCTGG 300
CCAGCGGGGC GGCCAGGGCC CGGCCCGCCT CCCCAGCGCC CGCCCGGCTT CTCCCCCTGG 360
CGGTGGGAGC CTCGGCGGCC GCTGGCGACA CTAGGCGCAC TGAAGCCCGA GCCGAGCCGA 420
GCCCGAGCCG CCGCCGCCGC CGCCGCTGCT GCGCACCGCT CCCGGGCTCC CTCCCAGCGC 480
GCCGGCCGGG GTGTGGGGGG CGGCGGGCCG GAGGGGCGAG GGCGGGCCA 529
<210> 8
<211> 407
<212> DNA
<213>mankind are with reference to genome hg19
<400> 8
AGCCCCAGCC TTTGGAAAGC ATGGCAAGGA GGACTAGGCA ATAACATGAA CAAAGCAGTA 60
GCTCCTGGGA ATAGAATTGA TTATCATTTC CCAGGCCCCC CAAGGACCCT GGGCTTCCCA 120
GGGGAGGTGG CCTTTGGAGA CTGCCTATGC AACAGGCACA GTGGCAGGTT GTACCATGAA 180
CTCTTCAAGG ACAAAGAAAA GGAGGGAGGT TAAGTTTAGG CCTTGGCCCC AAAGCCCTGA 240
GAGCTCCTGA GTTCCCTGCA GGGCTTGGGT AGCTCCTCCC CAGTCATACA GGAACACCCT 300
GAATGCCAGA ACCAGTTGGG TTTGTAGGGC TAGGTGTGGA TCACTGGCTT GGAGATGTTG 360
GTGCCCCTAC CTCAGCATCC CCTGGAGACT TTGGAACCCC CTGTGTG 407
<210> 9
<211> 401
<212> DNA
<213>mankind are with reference to genome hg19
<400> 9
ACAGGCCGGT CCCGTGCCCT GCACCACGCT GTCGAGCACC GCCACCACGT CGGGCGCCGG 60
TTCCACGAAG CAGGCGGTGC GCGCAGCTCG GATGGCGGCT CGCACGTCGG CGAAGCGGAA 120
GGCGCAGAGT GCGGCCGGAG CAGCGCGGGC CGCGGGGGAC CCCTGGGGCC GCTCGAAGAC 180
AGCAAAGAGC CGCTCCCGGG CTGGGAAGAC CGACACCAGG CGGCTGTAGA GGTCGCCGCG 240
GCCCGCGCCG CCCGCGCACT GCAAGCCCAA CTGGATGTAG GACTCGGTGA GCTTCTTGGC 300
GTCGCCGCCG GCGCCGTGGG GCAGGCAGAT GCGCGCCAGC AGGCTCCGCG CCTGGCTCTC 360
CTTGTCGCCC GCGCGCGCCT CGCTGTTGAG CGCCAGGTAC G 401
<210> 10
<211> 441
<212> DNA
<213>mankind are with reference to genome hg19
<400> 10
CCATATTGCT AATGCTGCAT TATATACACT CAAAACCAAA ACAAAACAAA TACTGTATAA 60
AATCTAAAAG CAAACATTGA GTTGTAACAT TTATATTTAA CTTAAGGTTT TAATGGATTT 120
TTACCTTTGC AGACACCCAA AAAAAAAATA AAATAAATAT TTTTCTGACT GTTCCTGACT 180
TAAATGATGG CTACAGGGAT AAACACGGAA GGAAGCCTTG CCAAGTTAAT CACTGCAAAT 240
TGTAAATAAT GACTGCTAAA AACAAACAGA AGTTTTTTTC TTTTAAAGGA AACCATAGAG 300
CAGTCCTGAA AAAAATTTCT TCCTAGTTCT GCACAGGATA ATTACAGCAG AAGACATGGG 360
AAAAGTCCCA TGGCAATCAC CAATTGCTTA AAGAGGTTTT GTTACAATAA AAATTTGGAT 420
AGTATAATAG CAGTGTTGCT G 441
<210> 11
<211> 514
<212> DNA
<213>mankind are with reference to genome hg19
<400> 11
AGGCCCGCCG AGCGCCGCAG TCCGTCACAC TCCCGTTGCC CCCGTCGCCC GCCCCGCCGG 60
GGAGGCAGGG AGGAGGGGGC GCGGCGCCGG CGGCTGCCCC GGTCGCGGGG CGGCGGGCAG 120
CAGGCAGCGG GAGCGCGCCG GCCGGGACCC GCTAACGGCC GCCCTGCGCG GCCCCGCCCG 180
CCGCCCGCCC CCGGCCCTCC CCGCGCCGCT GCCCCTCCCC CCGCCGCCGC CGCTGCTGCC 240
GCCGCCGCTG GCAGCGCCGC CTGAACTGAG GCGAACTCCG CCGCCAAGTG AGTGAGGAGG 300
AGGAGGAGGA GAAGGAGGAG GAGGAAGAGG AGGAGCGCAG TCGGAGCGCG GCGGCAGCGG 360
CAGAGGCGCC GCGGCGGGGA CCAGCCCAGA GAGACCCCCC GAGCCCGCGG CACAGGCGGC 420
GGCGGCGCTG AGCGGGCTCG ACCAGCCGAG CGAGCGGCGG CCCCGGCTCC TCCTCGTCCG 480
GCGCCAGCAG CCCGCGCCCC GCGCCCGCAC TCGG 514
<210> 12
<211> 414
<212> DNA
<213>mankind are with reference to genome hg19
<400> 12
CAGGGGGACA GCTGTCCCGG GGAGCGGCCC GCCGCTTGCC GCCGCGCCCA CAGCGTCTGC 60
GACTCGCTGG ACCTGCACGG CGCCTCGGCC GGCCGCGCTG CCGCCGCCCT GCAGGCCGCC 120
CTCTGCGCCG CCAGTGAGCA GCCGGCGCGG CCGCGGAGCG TGTGCTCGGG CGGCCCGGAG 180
CCGCCGCCCA CCGGCGCCCG CGGCCTTTTG CTCGGCCTCC TGCGCCCGCG CCTCGGCCGC 240
CGGGGCCTGG CGCCCTCGGG ACCGCCCGTC TCGCCTGCGC CCAGCCCCGC GTCCAGCCCC 300
GCGCCGACCC GGCGCAGCCG CACCCGCGGG GAGCCGACTC CGCGGCCCCG GCCGGCCAGC 360
ATGACTTTCC TGGAGGTGAA CCGCCTGGAG CTGGCGGCCG CCGAGGCGCC GGGC 414
<210> 13
<211> 409
<212> DNA
<213>mankind are with reference to genome hg19
<400> 13
CTGAGAGGTC ACTAGAGGAC TTCATAGTGG GGTTGTGCTG CTTATCACAG ATGCAGACAC 60
TTGCCCAGAT AGGAGCAGAG AAAAGCAGGG GACGTTTCCT ACTCACATTG TGGCTGTATG 120
AGAACACGAT GGGACTGCTT TGCTGTTCTC TTTACTCTGT CCTTGGAGAG GTGTGAAAAG 180
CTGTATTGCT ACAGGCAATT TATTTAATAA TTGGAAGCCA TATTGATAAT GGATGTGGTA 240
ATATTTGTAA AGTTTAATCT ACTTTAAGCG GCAGTAACTA ATGGAATTTT TTTCCTTGAT 300
CACATATGTA GCACTTTTGT TACTTTTTAA AGATATTTAT ATTTGATAAA TCTTTTTTTC 360
ATTTTGAGAA CTCAAAATAC CAAACAGTGA ACTTGCATTC TAAAGTCAC 409
<210> 14
<211> 468
<212> DNA
<213>mankind are with reference to genome hg19
<400> 14
GCTTAAGCTT TTAACAGCAT TTTAACCGCT CTAAAAATTA CCAGAGTAAG AAAAAGCTAG 60
GTACTTTAAA GTGAGTTTGA GAAACAAGTT GAAACTAAAA TTAAAATACC AGCCATTTAG 120
GTGCTTTCTC TGGCATCTAT AAAAGTAAAT TCTAGTGCCT GCCAAGTGAT GGATTATAAT 180
GGTCTCTAGC AAATGTGTGG TAAACATTCA TATGGCCATT AATTTTAACA TTAAATCGTA 240
GGTAGGGCAA TGTAGTAAAA TGAAAGAGAA TTAAGAAAGG TTTTGAATTC TTATAACATA 300
TCCAGCCATT TCAATTTTGA TTGAAATGAA CTACAAAGAA TAGTGTTTGT CCCTATGGTA 360
GCCTCAGTCT CTTTATCACT AACTTGGATT GAAATGAGTG AGGCCAACTC ACATTCCCAT 420
CAAACACTCT TCCAAGGAAA AGCAGAAGTA ATAATTGGAG GTAAAGTT 468
<210> 15
<211> 649
<212> DNA
<213>mankind are with reference to genome hg19
<400> 15
GTGAAGTCAC TGCTGCTCTG GGTTCGGGTT GGCGACTGAA GGCGGTACCG GCCTCCCGGA 60
ACAGCCCGGG GGAGGGCTTA GGTGCAGAAG GGCAGGCTGG CCGCGGCCGG TTTGGTCTGG 120
GGACCACGGG CTGGAGCAGG TGGGCAAGCG CCGGGACGGT GTGGGGAAGA CACTTGGCAG 180
CTTCTCGACC TCTGGTGTCC CTTCGTTTCT TCGAATTCCT ATTCATGCGC CGCACCCTTC 240
TCGGACCCCC AGCCCCTCGC TAAGGCTCTG GGGATGGGGG TCAAGTCTAG GCTCAATGGA 300
CCTCCCCTCC TCCACCCGGG TCACCACTCC TCGGAAATCC TCGCCCCACT CCCGCCTCAG 360
GCCTGTACCT CCTGGCTGTG ACGTGGTTTC TCAGCGACTG CCTCACCTCA GTCCCAAAAT 420
CCTCACTGCC TTAGATACAT ACGTGCCCCC AGAGGTTGGC CTGGGTTTCA CAGTATTTCC 480
CTAAGGGGGC AATATATTAA AGCTGTCCTT CGAAGTTAGT ACCCTGCCTG GTAGATGCCC 540
ATGGGATGAC AAAGAGGAGG AACAAGGGTT GACCAGATTA GGACTAACGA GAGAATAGTC 600
TGAGTCCAGA GACATTAATC TGTCTCTTTG TTTTGGCAGG TGGAAATTT 649
<210> 16
<211> 457
<212> DNA
<213>mankind are with reference to genome hg19
<400> 16
ATCCATTGAG TCCAGACAGT TGGGAAGTGC CTGTAGGAAA ATGGCGATGG CTGAGAAAAG 60
CCCGGAGGAG ATGCTCCTAG CTATGACTTC CAGCTTTCAA GTGCTCTGTT GCCTAACAGA 120
AGCTTGCATG CGATTAGTTA AAGTCGTGAA CTCAGAAACA CAGCGGCAGG AAATTGTAGG 180
GAAGATCGAT GAAGTGGTCA TAAATTACAT TTGTCTACTG AAAGCTGCCG AAGCAGCCAC 240
TGGAAAGAAC CCTGGGGACC CTAATGTTGG ACTCTCGGCG CGACACTCAA CCACCATGGC 300
CGCTCTCGTA AGCACACTGA CACGTTCTCT CAAGAGGCTT TTAAACAAAT AAATATGGAA 360
GTCACGTCAT AATCTACCTT TGCAAAGCCA TACATGAACT TTTATTTACT TTGTGTGTAT 420
GATGAACAGA TGTCTCCTTT CTTCTCTCTG TATATTT 457
<210> 17
<211> 433
<212> DNA
<213>mankind are with reference to genome hg19
<400> 17
CGGATATGGG GTTTGGGGTC AGAAACATCT TGATTAAAAT TTTGACTCTG CCATTTTCTA 60
GCCCTTTTAT GTTGGGAAAG CTACTTTTTC TAGTCTCAAT TTCCTCATAA TAAAATGAAA 120
ATCAATTATA AGATCGATTT CCATAGGGTT GTCATGAGTT TTGAGTAAAA ATGTGTATGT 180
AAAGTTCTTA CCACAATACC TGGCAGAGAG TAAGTATTCA ATTAATGTTA GCTATTATTA 240
TCATCATAAT CGTTGTGTTA AATATATTGC CCAAGATAAT ATGTGGGGGA ATGTTTGTTT 300
TATATGCATA TTGTATCCTG ACTGTGTGCA GAACACATTA TGTGTATTGC ATATATGTAA 360
AAGAAGTGTA CAAGGAAGTG GCCATCCTTG TTCAAGTTAC GTATCTAGTT AGAACAACTT 420
CCCAGTCCAT TGG 433
<210> 18
<211> 432
<212> DNA
<213>mankind are with reference to genome hg19
<400> 18
AGATTTAAGC GGGAACTGTC CGAGGTGCTT CAATGCCCCA TTTCCATGCG TGCCTTGTGA 60
TGGTGGTGCT TCAATTAATA TAGATCGTTT TGCTTTTCAA AACTTGACCC AACTTCGATA 120
CCTAAACCTC TCTAGCACTT CCCTCAGGAA GATTAATGCT GCCTGGTTTA AAAATATGCC 180
TCATCTGAAG GTGCTGGATC TTGAATTCAA CTATTTAGTG GGAGAAATAG CCTCTGGGGC 240
ATTTTTAACG ATGCTGCCCC GCTTAGAAAT ACTTGACTTG TCTTTTAACT ATATAAAGGG 300
GAGTTATCCA CAGCATATTA ATATTTCCAG AAACTTCTCT AAACTTTTGT CTCTACGGGC 360
ATTGCATTTA AGAGGTTATG TGTTCCAGGA ACTCAGAGAA GATGATTTCC AGCCCCTGAT 420
GCAGCTTCCA AA 432
<210> 19
<211> 411
<212> DNA
<213>mankind are with reference to genome hg19
<400> 19
AATCTAATAG CCTATAGTTT ATATTATTAT TTTGTATTAT TTGCACGCTG TTACATAGTA 60
TATAATGATA ATGTTTTCTA CAGTGAAAGA GCTATCCCGT CTTCCCTTTA CAACTGTCTG 120
AACTTTATTT ACTCATTAGT CAAGGTTCTT TGCAAGGCAG GTGATTAACT TAAATATCTC 180
AGTTTATACA GTGGTTTAAA AGACTTTTGT TATGGTAATA GGGAGAGAAA CTTGTCAGAT 240
AGGCTAAAAT CTAGATAATT CTACATATTC TGAGGAATTC ATGCTCCTGT GGCTCTTGCT 300
TATAAATATC TTGGAATGTT TCTGAATGCC TCTAAGCCTA TGTTCAGACT CTGTTGCGTC 360
AATGACTGGT AGTATTTCTT TCATTAATAT GTTTGTCATC TGGTCTGCAA G 411
<210> 20
<211> 406
<212> DNA
<213>mankind are with reference to genome hg19
<400> 20
CCCCAGGGCT CAAGAAAGCT GCCCAGGGCG GGGCTGATGG AGTCTTGATT GTACGTGCCC 60
CACTTGCACC ACAGCCTGCC TTGGGTTATA TACCATAGGA GCCACATAAC TCATTGGGCA 120
AAGCTTTAAA GTACATCCTC CTTCCAGGGG AAAGAGGAAC ACAACCTCGC TGTCTCAAAC 180
AGTTCCCTAA ATCAAGATGT TACATTCCCT AGGAGGGACA ACAACAAGGC CAACCTGTTT 240
CAGGCAGTTC CTCCATATCA GGATATTGCA TTCCCAGTGC ATTCTACAGT TATTCTTAAG 300
AACTACAAGC AAGGAAGAAG GGAGAACTGG GTCAGTCCAA GGCCACCTGG AGAACTGTCT 360
TGTACATGGG TTAGGGTAAA GTTGGCTATT CTAAAACTAA GCATCC 406
<210> 21
<211> 611
<212> DNA
<213>mankind are with reference to genome hg19
<400> 21
GGTGCTTGGC TCTTAGTGAA TGCACTAAAA TTCTTATTGA TAAATGTTGA ATAAACACAC 60
ACAAAAAAGT ATCAGAGAAA GAGAAAAACC CTACAATGGC AATAGAGGTG TGTGACAGTT 120
ATTGCTATCA ATTTTACATA ATATCTCATT TAAAAACAAC CTAATTATGC ATTGCCTGTG 180
AAAATAAAAG GATAAAATAA GATTTTGTAC ATACTGTAAG AATACAGTTG TGCTGTATTT 240
TTATGGATTC ATCAAGGAGT AAAATGTTCT GCTTTAGTAA ATTATATAGG TAACTGAAGT 300
GTTATTCCTT TAAAGAGCAA AATAATTTAT CACCATGTTT GGTGGAAAAT TTCTAAGTAT 360
TTATTACATG CCTAGGGGTT AGCCAACAAG ATATACCAAG CATGAAAACC TGTAAAACTT 420
AATAAAATGC TAAAATATGA ACATCACACT ATGGAGATTA TGCCTCACTA CTCAAAGAGT 480
GTGGCTCAGG AACCAGTGTA GCTTGGCCAT GCCCTGGCAG TATGTTGGAA ATGCCTGCCC 540
CAGACCAGTT GATGTTACTA AGAACGCCCA GGGGATGAGA ATGGACTTTA TTTACAGTTT 600
GGGAAGCACT G 611
<210> 22
<211> 447
<212> DNA
<213>mankind are with reference to genome hg19
<400> 22
GATTGAAGTG ACAGAATCTG AAAGAAAAGA ATATGATTGA GCTATTTGTT TTCCTGAACA 60
CCTCACCTTT TATGATGCAA TAAGTTACTC TGAGTTTCTT GGCAGAGTTT TTGACAGCTG 120
TTGCTTTCAA TGGATTCCAT TCCTGTATTC CTTATGGGAG GTTGTTTTTA AAATAGACTA 180
CTGCGATTGA AATGAACTCA ATATGTAGTT AAGTTATAGT TTTCTTCAAT GTATTTTTAG 240
TTACTTGGGT CACAAATGTT CAATTTCAGC ATATTTTAGG GTGAGTAATC AAAAATGTGA 300
ATTTGCCTTT GATTTCCTAC CACTGTCTGA GCTATCATAA AGCATTCTCT TTAGTTGTGA 360
TTTGATTCTA TAGTCTGTTT CTAAATGACA TTTGTCTGTT TCTTAAATGA TCTCACAGCC 420
ATGGTAATAA TAGATGTGTA CTCAGAA 447
<210> 23
<211> 443
<212> DNA
<213>mankind are with reference to genome hg19
<400> 23
CCAGCTCTGG GGCCTGGGAC AAGTTACTTA ACCTCTCTGT GCCCCCTCTT ATCTATTTAA 60
GAATATGGGT CTGGAAGTTC TTGTCTTACA GAACCATGTT GGTGGTCTGA GAGCAGTGAC 120
AATGAGGTGC TGTGGGTTGG GTGAGTGTGG GAGTGTCTGT CCTTTGTATA CTGCAGACTC 180
TCTTCTCTGG ATGTGCCAAC TGAGAATGGC TACAAGAACA TCAGAAAACA AGCCACCGCC 240
CTAAAGGTAC TTAGATCCAA AGAAAACCCA AAGCACACAT GTAAAAGCTG CTCAAACACA 300
TACAAAGGAA AGCATACAAT TATAGTCACC ACAGAGCATT TAATAATAAT AAGATGCCTG 360
AGAGAAAATG TAGCTGGGAA CCCACATGGG ATTGACAGAA GGACAGGACA CTTTGTCACT 420
TGCTTTTTCA ATAAACAGAT CAG 443
<210> 24
<211> 597
<212> DNA
<213>mankind are with reference to genome hg19
<400> 24
GAATTTTAAA CTGGTGAACT AAAGGAAATC TTGAGGTCAT ATACTGAAAT ATGAATAAAT 60
TAAAATAATG AATTCAGATC TAATCATTTT TATGACAAAT TGCAGCACCA AACAAACTAA 120
TAGCAACCCA TGGCTGTGAT TTGTTGTGTG GTAATTTGGA CAGAATGAAA AGCATGCTTT 180
TGATTTTTTT TTTAATCAGT GAGAGAAGTC ATCATTCTCA ACACAAAGCC CTGAACAACA 240
GCATTTGACA GTGTCCTTTA GATTTTAATT TTTTCAATGG ATTGCTTTAA AGAGAATGAG 300
TAGGGAAAAT AGTAGTTAAT TTTAGGTTAT GTTTTATATT AGGCTACTGG GGACATAAAC 360
GGTCATAACT AATGACTGTA ATCATTAAAC TCCTTAAACA GTTTAGAAAT TAGCTCCAGG 420
TTCTTAAACT AACAAAAATA AAACCTAAGC ATGCCACAGA GCTATTGATT AATCAGTAAG 480
TACCTGTAAT GAGTTTTCAG TGAAGCTTTC TCTCTGTGCT GATGAGATTC ATGCTACCTA 540
AAAATTAACA GAAATGACAC TGTGAACAAT GTAGTTGGAA AATAGGTATG TGTATAT 597
<210> 25
<211> 443
<212> DNA
<213>mankind are with reference to genome hg19
<400> 25
TTAACTACTG TCAGTCCTAA TGTTTTTCAA AAATCTTTGG AGATAATGTT AACTGCCTAT 60
CAAGAGTCAT TTTTCTCTGA CATAACTATG TAAAAGCACT TTGAAAAGCA TAAGGCACTA 120
TACAAGGGTA AGATAGTATA TTTTTAAAAG TACTGAACTG TAACCCAATT CCATATGTTT 180
TTGTGATTTC TGTCATGTAT TTTGAAACAA AAACATACAT AGCTACCAAG TATGTTTATT 240
ATAAAATTAT TCCCATAGTT CATAATTCAT TCTTAGAATG AAGAGTTATT ATACTGAAGT 300
GTAATGGCTA TTTACTCCTT ACTTATTTAT ACCCTGTCTT ATTTTTAAAA GTTTTAAGGT 360
ACTTTAGAGA TTAATGTATC AAGAAAAATA GGTGCTCAAA TGTTTTCTGT CTTGTCCACA 420
GAGGGGCACT GTTGGATTAT TTA 443
<210> 26
<211> 500
<212> DNA
<213>mankind are with reference to genome hg19
<400> 26
ATCTGCATTC TTAGATCATT AGGTCGTGGG GAATCTCTGG AATCTTCAAG TTTAACGCAG 60
AAATGCTTAT AACTGTCAAG GGGTACAGGG ATGTTTTACG CTGCTCTTGG GAACCTGGCA 120
CTCCTGACCC CAAGCACACT GAACCCGAGG CTGCTGAAAA GGCAATATAT CCAGGGATGG 180
GAATGGAGGG TATGAGGTTT CCTTCCTTAT ACACTCCCTT CCCTTAATTA TGCCCCCACC 240
CAGGAAGACC AAGGTGTTTG GGCTCCTTAA ATACTCGGAG GGAAATAACA GCCTCAAGTA 300
GCAAGGATGA GCACATAGGT TAAGAGGAAG GCAGGGGGAG GAAGGGAGGA AGAGAAAGGA 360
AGAGACATTT ATTTGTAATA CTATCAATGA TCAGTAATGT GATTTTTTGT TTTTGCATCA 420
CTTCTTCGGT ATTATCAACT CTCATTCTTT GTGGCTGTGC AAATCTATTA ATGTTTAGTA 480
GTTTCACTAT TAAACTCAGG 500
<210> 27
<211> 482
<212> DNA
<213>mankind are with reference to genome hg19
<400> 27
TTATTGAGTA GAGACACATA CACAGACATA TAATTTCTGT AACTAATACA TTCTTAAATG 60
TAGCTGGCTG TAAAAGCACA TGAACAAGAT TACTACTGAG ACTTCTTTGT ATCTCCTGGT 120
TGCAAACCTC TCTCAGAATT ATGAATCTTT CCAAACCCTT AATTATACAA GTCAAAACAA 180
AAAGTTTCAA AGAAGAAAAG GTCATTTTAA TTTGAAAGCC ACATTTCGCC ACAAGAAACA 240
AAATTAAGAA AACACACCAT TATATGGCAT AAAATGTGTG GAGTATACAT TCTAGTGTCA 300
TTTTTCCCAT TCAGATTTTT TCTTGAAGTC CATTAAAGTG ACATACTGGG TCCAATGTGG 360
GCCCCCTATT GTTTCAGAAT GCTATGGTTT TTGTTTGCGC CTGGTTTTAT TAAAGCTGGG 420
CAAACACAGG AGCAAACAAA GAAAACTCCC AAGATCCAAT AGAAAAAAAA TTAGCAAGAA 480
CA 482
<210> 28
<211> 431
<212> DNA
<213>mankind are with reference to genome hg19
<400> 28
TGTAAGAATT CATGATATGG TATCTTGGGC TTCTGGCATG CCTTACTAGA GAGAAACTAG 60
TATAAAGGAA GATCATATAT AACAGTAGAA AAATATTTGT GATTTTTTTC TTTTTTAAAA 120
ACTATTTAAG TAGGCACCCA CCCCATTCCC ACCCATGACC AAAAATGCAA AATAAGTACA 180
TCCCTTAGGT GTATACCTTC CCTTTTGCTT AGGGCAACAG TTAAGATAAA CTAATACACG 240
TATATGATTT TAAGAGTTAA AAACTCATCA CCCATAATCA ATAAGGATGC TAAGGAATGG 300
CAATACCTTG AAGCTTTTTT TAAAATTAAA AACCAAAGCT TTAGATGGTA AACTACACTT 360
ACAGAAACAC AAACCAAAAT CTTTATGCCC TTGCTTTGTA CGTGAAAGTT CTATTTTAAA 420
TACTTGTTTG A 431
<210> 29
<211> 459
<212> DNA
<213>mankind are with reference to genome hg19
<400> 29
ATGTTAACAA TTTTAAAATG CACTGTTTAG TGGCATTAAG TACTTTCACG TTGTTATGCA 60
ACCACTATCC ATCACTAGAA CTTTTTCATC TTGCAAAAAC TGAAATTCTG TACCATTTCA 120
ACACCAACTC CCCACTCCTC CCTTCCCCCC AGCCCCTGGT AACCACCATT CTACTTTCTG 180
TCTCTATGAA TTTGACTGCT GTAGATATAA GTGGAATCAG GCCTGGTGTG GTGGCTCACA 240
CCTGTAATTG CAGCACTCTG GGAGGCCAAG GCGGGAGGGT TGCTTGAGCT CAGGAGTTTG 300
AGACCAGGCT GGGCAACATA GTGAGACCTG TTGTCTACAA AAAAATTAAA AAATTAGCTG 360
GAAGTGGTGG TGCATACCTG TAGTCCCAGC TACTTGGGAG GCTAAGGCAG GAGCATCGTT 420
TGAGCCCAGG AGGTCAAGGC TGCAGTGAGC TGTGATGGC 459
<210> 30
<211> 540
<212> DNA
<213>mankind are with reference to genome hg19
<400> 30
ACACTCCCAG CCGGCCGCAG CCTGACACGC CGCGCGGCCC CCCAGTCTCC CGCGGCTGCT 60
CCCCCAGGCA TGGCACAGGG CCTCGCCTCA CTATGGCAGC AGCACGGCAC AGCACGCTCG 120
ACTTCATGCT CGGCGCCAAA GGTGAGGGCG CCCGCCGCCA CCTGCGTGGC CATCCCCGCC 180
GCTCCCGCCG CCTGGCGGGC TGGGGCGGGG GTCGGGCGTG GCGTGCGCCG CGGGCCGAAC 240
AATGCGGGCG GCCCGCGCGG CGCCGCACTC TCCCGGACTG CCACGCACAG CGCGCTGCGG 300
GGCCGCGTGC ACCGGCGGTC GGGCGGAGGC CGCGCTCCTG CTGGCTCCGC GCTCCGTCCC 360
GGCCGCAGCT CGGGGCCTGC AGGGGCAGTC CCGGGTGCCC GCCGGCCGCG CCGCCCTTCC 420
GGGCCCTGGC CGTCCACCCG CGCTCCCACG CGGGCTCGCC GCCTTCGCGC TCCCGCTCGG 480
GGAGTCCCCG GGCTGCCGGG CGCGGGCGGA CCCCCCATGG GACGAGGGTT GCAGGGACTG 540
<210> 31
<211> 400
<212> DNA
<213>mankind are with reference to genome hg19
<400> 31
CGACCCATTA AAATGTATTA GACATACACC TAGAAGCATT ATTTAACAAT GTTTAAATGT 60
TTTACTACCT GAAAATAATG GGATTCTGTA CTGTATTGGT GGTTGGATAG GCTCAAACCC 120
CCCTCCAATA GCTTAATTAG AAGCTTCTCT AAAATGCATG ATCATATGAT TCCTGTTTTG 180
GGAAGGTGTT GGGTAGAGTC CCTCCCCAGC TTGAGGGAAG CTAAATGAAG TTGGGAATAC 240
TGTGGACGTT AAAGAGCCAT GTATTGACAA AGTTGACATG GGGTTGGCCA AAATGGATCA 300
GTGATCTCTA AATTCCAGCG TGCTCCATGA AGAAGTTTTC ATGGGTCCTT AATAAAATGG 360
GGAGGAGTGG GAAGTAGTAT AATGTAGTGA ATTTTTCACA 400
<210> 32
<211> 629
<212> DNA
<213>mankind are with reference to genome hg19
<400> 32
GGCAATATGT AAACAAATGG GCATGGCTAT CGCTCCACTA AAACTTTTAT TCACAGAAAC 60
AGGCAACAGG CCCTAGTTTG CTGAACCCTC ATCTATAATT TTGATTGCTT TAGAATGGAG 120
CAAGAAAGAT ATTAAGAACA CTTATAATGC AATTTGAGTA CAGAATCCTT TTAGACTTTT 180
TTCAGTTGTT TTCACCCATA TCTAATTCAC AATCCCTATT TTTTGAGTGA TTTGCCTTTG 240
GCTTTCATAG AAAGAGCGGC TTTCTCCTTC ATGTCAGTTT ATGAAACATT AAATTGCAGA 300
AATACAATAA CTGGCATAAA CAGGTTTGGG GACAGAATCA ACTCTTGGTA AGCAGACAAT 360
TCAACCGATG GGAGCAATAT TCATGGGCCT ACCAGAATGC AGCCTACTAG TCAAAAGTAT 420
GCAGCAGCTG TGGACATCAG TCAGTATATT TTCCACAGAA AATGAAGACC ATCTCTAATC 480
TGGTGAGTTG GGTAAATGAA AGTTTAAGAG AGCTTCTGCT GTAGTATACT TCTGTAAAAA 540
AATCCAAAAA ACTAAAACTA TGATTATAGT TGAATGTTTT CACATAACAT AACATGAAAA 600
ATAACATATA TAGAGTTTAT TTTAAAACT 629
<210> 33
<211> 403
<212> DNA
<213>mankind are with reference to genome hg19
<400> 33
TTTTAAAGTA ATTTTTCTAA TGCTTCTTTC TGCAAGAGGG CCAAAACCAG AACATACTGT 60
TTTAGTGTCT TTGTTAACAA AAATAATTAT TTATAACTTT TATATTAGAA CTGTATATTT 120
GATATAAAAA TATGTTTATA ATTAAGCTAT CCAAATTTGT ATATTAAACA GAATTAACAC 180
AAGTTTGCAG CATGAGATTA GTTGCAAACT TATTCCCTAT TATTAATACT TCCTTCCATT 240
GAACAGTCAG TAAGTAATTC CCTTAACATA AATCCATCCT AAGTGTGTGC ACAAATCGGT 300
TAGCCCATCA GTTAACTTCA GAGGACCAGG TGATAACCAG ATGAATTCTA CTCCTCTACT 360
GAGACATTTA GATATTTATA TAAATCTATC GCTATTCCTT TCT 403
<210> 34
<211> 446
<212> DNA
<213>mankind are with reference to genome hg19
<400> 34
CCTCAAGATT GTTAGGAGGT AATTTTCCAT TGAATTATCA ACTGTGATTT TTATATTGCC 60
CTCCAAGTGG TAGAAGAAGA TTGCAAAGTC CATGTTATGC TAGGTGCACA ATAAATCTAG 120
TAATAGCCCC ACACAGATCT CATCATTGTT GCTACTTCCT TTTGTATTTT CATCAGGTAT 180
TTTTTTAACT GTAGGGTTTT TACTTTTTTC TTGGAGCAGA GAGAACAGGC TGTAAATGGG 240
TTGCCAACAT AAGCTGGCTG AGAAATAAAA GAAAACAAGA CAGTTGTTCA TAAAGTTTCA 300
TTTTGTATGC ACTGATGGCA AATTCATTAG GTCAGTTAAG GGAAATATTT GTACCACTTC 360
CAAACTTTTC AGCGTTGGAT AAAATGATTG ATGAGGCAGG CAGAAGGAAT GTAGGTTTCA 420
GGTGTGTCAT TTCCTGCTGC TTCCAG 446
<210> 35
<211> 564
<212> DNA
<213>mankind are with reference to genome hg19
<400> 35
AATTGGCCTC AGTTGTTCAT CAGTGAAAAT GCTCAGTTTG GGGTGATACC ACATAAATAG 60
CAGCTTTCAG ATGACTCCCC ACATTGGGTC CAGAAGTTCT TTCATATAGG CTGAATATAA 120
TAACCATCCT ATATACAGAG CTTTATGGAA CACATGCAGT TTTTATCGTC CAAGAACCCC 180
TCAAGATGTG TTTGGTAAAT GCTCCAAAGT CTTACAGCTA GAAAAGGACA AAACCAGGAT 240
TCAAACCCAG GGTTTCACTT TCTAAGTTTA TTTATTCAGT ATTCTAGACT AGAATCTGGG 300
GATACAATAG TGAACAAAAT AAACTTTCCC TCAAAGCTAC CTTCTGTTTC CATTTGCTGT 360
TCCTTTCACA ATTCATCCTT GAGACCTGAA ACCTAAAGCA CTCAGAACTG ATACTCTAGT 420
TCATTATCAT ATCAGTTCCA TTTCTAGTAA CTTCAGAAAA ACAAGACCAC TTTCAGGCCT 480
ATCTGCCCTT TTAAGTTCTG ATAGGTCTGA TGATGATGTG CTAACCATTT TGATTTGTGT 540
GTCAAATCTA AGCAAAGACC ATGT 564
<210> 36
<211> 427
<212> DNA
<213>mankind are with reference to genome hg19
<400> 36
ATGAGTTTTA TTGCTTTCTG GGACCTCTAA CCCAGGACCA CCCCTGATTC ACCAACTTCT 60
CCTTCTTCTC CTCTTTAAAT ATTATAGTTC ATTGTGATAT GTTTTTCCTG TATCTGCTCT 120
ATCATGTGAC CTCCTTTCGC CTGGGAGGGC AGATTTTCTC CTTATCTCTT CCATCCATGT 180
CTGTTCTTAG CTAAGAGTTC CAGCCTCAGT ACAGCTGGAT TACCCTTTGG ACAGAAGGGC 240
AGACAACCTC AAGGTCAGCA GCAACAGAAG TTGGGCCTAG TAGTCAGATC ACAAGTGAGT 300
GTGGCTATTC ATGAGAATAG GGTGGTGGTG GCATTTATCC TGCTTCCCCT CCATAAATAA 360
ACCTGGTAAT TTTATTTTTA ATGTTACAAA AAAAGTTGAT GCTACATTAA ATGTTTTACC 420
CTCATCC 427
<210> 37
<211> 440
<212> DNA
<213>mankind are with reference to genome hg19
<400> 37
TTTTGTACTG AGTCTTCAAA CTCTAGTGTG TATTTTATAC TTACTATACA TCTCCAGTCT 60
CGAAGTAGCC ACATTTCAAG TGTATAAGAG CTGCATGTGA GTTGGCTATT GTATTGGACA 120
GTCCCATTCC TGTTTCCTAG TATTGATAAA GTCTTCCTAC CTTCCTTCGT TGTTATGGGA 180
GAAAATGTAA ACAGAACCTG CCTATTACAC GAGAGCTGCA ATATTTCCCC AAATGCAGCC 240
CAGCAGTACC ATGAGCTGCC CTGTGGAAAA ATTTAATCTG TGATTAAATA AGTTAGGAAA 300
GTTTTATTAT TTTACCCCCT TTTGAAGATT ACATGGTACA TTAACATATT AAAGATTGAG 360
TAAACTCTCC TGGGTAAAAA AACCTGTTTG ACGTTGTTTA GTTGTTGAGT TCTGTGTCTA 420
TAAGAATCCT AGAAATTGCC 440
<210> 38
<211> 519
<212> DNA
<213>mankind are with reference to genome hg19
<400> 38
CTCATTACCC CGAAGAGCAG CTTCAATCAT CTACTGCTTA GCTGCCTCCA CCCCACAACT 60
CCAAAATTAC TGATTAGGAA GCATAACAGA GCTGTCTGAC GACCAAAAGC AGGCGCCAGT 120
GGCCTCTGGG AACAGGCAGC AGAGGACAAT GAGAGATCCT GGGCTTCAAT GAAGGAAAAC 180
GGTGGCTCTC TCCCCATTTA TTACTGAGCA AACTATTTGT TTTAAAAGCA CATAGAATGC 240
TGCTCCACCT GGGCCCACAC TCCTGACATT TAGAGTTAAA GCAGTATATA GACTGGGATT 300
AATTCTCCTT CATAAATATG AAATAATAAA TTAAGGACGA AAGTGCACTG AAAGGCCGCT 360
TTAGGGGCTA ATCTTTTAAA GGGCGGCAAT GCTTCACTGA GCCAGGTTGC CTGTTAAAAC 420
TGTAAATCAA GAGCGGCCTA CTAGGCGGGA AGCTCTTTCT CTCCCACCCC TTTTGGGCCC 480
ACGGTGGCTG TGAGAAGTTG AGGGGGGCTT CAGCATGGG 519
<210> 39
<211> 442
<212> DNA
<213>mankind are with reference to genome hg19
<400> 39
CGTTCTGCTG AAGCTCTCAC TTTTCTTCTA ATTCTGAAAG TACTTTTATA CATTCTGAAA 60
TGGCATTTCA GCAGATGGAA AAATGAAGGT GGCAAATCAG GACCAATTTC TTATTTCAAG 120
GTTAAATTAA TACTAAACCA GACTATTAAT GAAAACATCT TCATCAAAAT TAACTAGAGA 180
GTTGGTAGTT CTCTGAAACT TTGTATAAAT TTTATTTATT ACTGTAAATA CTAAAATCAC 240
ATTGAAAACA CCTTAAAGTT AAGTCCCAAC CCGATTATTA GAGAAAATCA CTTGGGCATC 300
CAGTCCCCTT GATCGAACCT GGGTAACAAA AGAGGCAAAA GACATGATTT GTGATGAAAC 360
TTACTATTCA AATGCTAAAT GTTTTCAAGC TTTAATAAGG TATATATCAA TTCCAAGTAC 420
CAAGCATAAT ATAAAAATTC AA 442
<210> 40
<211> 624
<212> DNA
<213>mankind are with reference to genome hg19
<400> 40
CCTGTGTGGT GACAAACATC TCTTTCCATT TTCTTTTGCT CAGTCCATTT GCACAGGTTC 60
GAGGGAGTTG ATGGAGGGTC AGACGAGAGG TGGTGGGAGC TCAGGATTTT CTATTCCCAC 120
AAAGAGCTAA GACTTAGGAG TGCTGGCCCC AGAGATGGTG CGGCCCTCTT TCTACTTCTG 180
TTTCTGTGGG CTCTGTCTGC CCACCTGCTG CACAAAGCAA GGCAGGGGAA AGACCGGATG 240
GGAACATGGT GGTGAATATC CTCTTTTTTT CCCTTTTCCC CCACTTCCTG GATGTAGGTG 300
ACAGCTAAAC TTCACCCACT AAGCTGGAAA ATCTGGGACT CCCCATAGCT CCAAGTTTAA 360
GGCAAACTGA TGTGTGTGTG CACAGGCAAA GCCAATCAAG CCATGAGCTT GGAGGAGAGT 420
CCTGTATCCA GAGATTCCAA ACAGAGAGGG AAATCTTATT TCTAAAGGAG TTAGAAAAGG 480
AAAGGCTCTG GCAAATGAAA TGATCTGTGA TTAAAGCTTG TAGCCTTTCT GTAAGCTGCA 540
GTGAGAAGGA AAGCATCTTT TAATAGAAGA ATTAATTAGA GGCGCAGAAC AAGAAAGCCA 600
CGCTCAGGGA CCTTTAACTT ATTA 624
<210> 41
<211> 816
<212> DNA
<213>mankind are with reference to genome hg19
<400> 41
TGGAAGAATG TGACTTCATG GAAGAGTTAT GAGATGGTTA ATGTCTCTAA AGCAACAAGG 60
ACAGATGATT CCCCTGTGCC AAGGGATACA GCAAGAGGAA GGAGAGACCA CAGGTGGCCT 120
CCAGTACACC CGTGGCCCTT GGGCGCATGG CTCTGTGCGA GTCAGACGTG GTCCAGCTGT 180
GCTCTGGCAG GCTACTTTGT CACCCTGCCA ACTGATACTC ACTCCTGGGC CTTCAAAGGT 240
TCAATGAGCA TCTAACAAAT TATACAATTG TAAAGATTAT CAGCTTGGAA GCCTGAACAA 300
ATCTATAATG AAATGAAGGA CCCAAAGGCA TTTAATTATT GAACACATAA AAGGAAGTAT 360
ATTTAAAAAA AATTGGTCAA ACTGTCCTGT TAGTTATCAT TTTAAAGGAA TTTACAGGGC 420
TGTTATAGAT GATTCTTTTG GAATATTTCA GTTTATAGCA AATGCCTAAA CTGGTTTCTT 480
CATTGCACAG TATTTTCTCT TAAAATGGGT GCTTTAAAAC AATTACATAC AGATTAAAAA 540
TCATTTCTTT GCTTAATTAA AACGTTAATA CTCTTAGACA ACACAGATCT GAAATGGTGA 600
AACCAGCAAT TCCCCCCACC CCACCTTACA ACAAATTAAA TTGAGACAAA ATTACAAACA 660
CATTTCACTA CATGATTATT ATTAATAAAA ATCAGTTTCT TTTTTTTTAT AAAGTTGCCC 720
AAAATGCAAG GGATGTGCAT AGGTTTACAA CTTAGTCATA ATAGCATTTT ATTCTTATTC 780
CCCTGGGTGT GCCCCATGAA CGGAATGTAG AATGTA 816
<210> 42
<211> 494
<212> DNA
<213>mankind are with reference to genome hg19
<400> 42
AAGAGAGAAA AAAGGCCTTT AAAAATTTAT GACTGTTTTG TAATCACTAC ACTAATTATT 60
TCAAATAAAT AAAGGAAAGA AAGATATCCC AATATTCCAA TCCATAAAAT CAGACTCTAA 120
AAAGAATGTA GTGTTCCACC CCCAGTCAAG GTAACAGAAT CATTGTTTAT TATTATTAAA 180
ATAGATTATA GAAAGCAGCA TCTATTTTGT GCAGTTTTTA GGGGCCTTGG AAATAAAAAG 240
CTATGATTTC CAAAAATATA ACATTCCAAA GGATTGAATA ATACATACAT TTAAAGATAC 300
ATTTTATTAA AGTTTAGGAG AACTGATTAA AAAAGATACT GTCTCTTTAA ATTAGTGTGT 360
AATTGTTTTT CTCCTCCTAT CTATTCGGAC ATGACAATAA TTATAAATGT AGGTCACACT 420
ACAACTAGGT AGTCTCTAGG GACCATGACC TGCTGACACA AGGCCGATAA CAAAGAGGCT 480
TTTCCACAAA TGAG 494
<210> 43
<211> 417
<212> DNA
<213>mankind are with reference to genome hg19
<400> 43
TTCCCAAAGT GCTGGGATTA CAGGCATGAG CCACTGCACC CGGCTTGAAT CATCCTTTTG 60
TCCAGTATTA TATCCATGCT GTATATGCTA CCCGCCCACT AGTCCCTTAG CTGTCTCAGT 120
TGTCAGATTG ACTGTCATGG GATTGCAGTG CTTGCATTAA AGCTACCCTT ATTGTATAAT 180
GACCCCAAAG TGCAAGAGTA GTGATGTTGG CAATTTGCAT ACACCAAAAA TAAGTTATAA 240
AGTGCTTCCT TAAAGTGAAA TGGTTAAAGT TCTTGACTTA ATAAAGAAAA AAAATGTATG 300
CTGAGGTTGT TAAGATTTAC AGTAAGAATG AATCTTCTAT CCAAGAAATT GTGAAGGAGG 360
AAAAAGAAAC TTGTGCTAGT TTTGCTGTCA CATCTGAAAC TGCAAAAGTT GTGGCCA 417
<210> 44
<211> 403
<212> DNA
<213>mankind are with reference to genome hg19
<400> 44
GGTGCATGTT ATTTCACCTG ACATACCAAT TTTTAATCAT CTATCATTGG ATATTAAATT 60
GTCTTATTTT TTCACTACTT TAAATAATAC TGCTGTTATG GAAGATACTC TGAAAATTTT 120
AAATCTTATA TTGCTTCACC ATAAAATTAT TACTCTTTAT TAAAACATGG AGAATTTTAA 180
GTTCTAAGCA CTGTTCCTAA GGAAAGTATG TAAAAGCTTA CTATGTGCCC TTTCTGTAAT 240
GGCTTTGCAT TTTTGCACTG AAGATATTGA TGAATAATAT ACGTAAGGTC TCCTGTTTGA 300
GATCTTTGTT TCAGGGATCC TGATGACTCA TCCTCTCTTA CCCTATTTCA GGAAGCATTT 360
TTTCTATTTG TTTAGGAAAA TAATCTGGGA GTTTGCCCCA CAT 403
<210> 45
<211> 453
<212> DNA
<213>mankind are with reference to genome hg19
<400> 45
TTAAAAGGAA TCTGAAATTT AATTCTATTT TGATAAAACT AAGACTGAAA ATAACCACTT 60
GTAAACATTC CTATGATTGT TACTAAAATG TATTTTCATG TTTAAAATGT TTTTGGATAT 120
TTTTGGGTTA ATAACTACTA CATTGAATTG CATGTTAAGG TGCAGAAATA ATACATTAAA 180
AGATTTTCAC TTTAAATTAA TTAGTAATAT TGAGCGCTCA CCCTGTGCGT GGCCTTGTGC 240
TAACCATTAG CACTGCATCA TTTCAATTCT TTTATAAGGG CATTCAATAC TACAAAATCA 300
ACATGATTTC ATAAGGTGCA AATAAAAGTT GGTGACAGAT TTAATATAAT TTTGATCACA 360
ATTTACAAAT GATCTTTGCA AATAGTGGTC AGACGGCATT AGTTTTTCCC TTAGTTAAGC 420
TAAATTAAAG GGACTCCATC CTGTTATGAT TAT 453
<210> 46
<211> 526
<212> DNA
<213>mankind are with reference to genome hg19
<400> 46
CCTGACTGAC AAGCATAAAA GGCTAACTTG TGGATAGTGT TTACAAAAGT ACAAAAGTAC 60
TACTTCCAAG GAAAATGCTC TGATTCTCTG TTTAGGCATT TGTGAAGGAT TCCAGAGCCT 120
TTCCCAAAGT GAGACCATTT CTGGGGTATT TGTACCAGGT CAGGGTTTTT GTGTTGTTTT 180
CAAATAAGTT TGACTAAAAT AAGTTTGGCT GACAGTTTTT GTATACCTGC TTTAATGTTT 240
ATAAAATTTT TATTGAGGTA TAATTAAAAT ATAGTAAAAT GCACAGAGGT TAAGTATTCT 300
TACCTGCTTT AATTTTGAAA CAGATTTTTA TTGTCAAACA GAATTTGAAA GCATGTGTTT 360
AACACATGGA TATAATTTAG CTTTGTGTCA CCTTTGAATC TGAGGCAGTT TCCCAAACAA 420
AAAGGCTGGA GCCATTTTTC AGAAGTTGCT TATACCCTGT TCCCAAACTA TCAGCCTTGA 480
TTAATTTCTA GTAGGAAGAG AATAATTACA TTTGCGGGGG GGGGGG 526
<210> 47
<211> 413
<212> DNA
<213>mankind are with reference to genome hg19
<400> 47
TATGGCCTGC AGCTTATGCA AATGACAGCT TTGGGGACAT AGGTTAGAAG GCATGCATAC 60
TTCTTATAGG GTATGACTCA TCTGCTCTCC CAGCAGGGAA TTAATAATGA GACAACTACT 120
ACCTTTATAT GTCTGTATCA TTCAATGACT ATATTTCTGT AACATAGCCT AGAGCTAGGC 180
CTAATTTCTC AATTCATAAA GTTATATCTT TAAATTTAAA AATTCCATTG CACTTAAAAT 240
ATATATACCA TGAGGACTTC CCAAGGGAAA AGAAAAAAGT TTTTCATGGA AATCTTTTCT 300
ATGTCTTAAG TGCCAATGAT CACAAAAACA GATATCTGCA TTCCCAAGTA GGTTTTCTGC 360
CTTGATGTCA GTGCCCTGCC AGTGTTTGGA CAATGAAAAC TCTTCTCCTC AAC 413
<210> 48
<211> 403
<212> DNA
<213>mankind are with reference to genome hg19
<400> 48
GCTAGAGAAC TCTTTGGGAT CCCTTTTATA AGGGCACCAA TCCCATTCAT GAGTTCTCCA 60
CCCACATTAC CTAACTACCA CCCAAAGGCT CCACCTCCTA ATACCATCAC ATTGAGGATT 120
AGGATTTTAA CATATGAATT TTGGGGGGGA TGCAATCATT CAGCCCATAA TACCCTCTAA 180
CATATTAATC ATAGTTATTT TTAACTCCCT GTCTGATAGT TCCAACTACT AGGTCAACTG 240
AGTCTAGGTC TGTTGTTGTC TTCTCTTGCT CTTTTGCATC TAATAATTTT TGGCTGAATG 300
TCACAGATGT TGTATGTAGG ACAGTAGAAA CTGAGGTAAA TAGTAATTAT TCCTGGAAAC 360
AGCCATGGTT GCCCTTTTGA TAGGCCATTA GCATGGGGAG ATT 403
<210> 49
<211> 554
<212> DNA
<213>mankind are with reference to genome hg19
<400> 49
GAATCCATCT AATCAGGAGT TGGGCTGAGT TTGTGTTTCT TTGTTGCCAG TGTTACCTTT 60
GCTGTACCAT AGACTTAAAA TTCCTCTATT GTTATCTTAT GCTTGAGGTA GGCACTGGTT 120
TGCCCAGAGA ATTTTTATTT TTCCCAGACC ACACTTGCCT TTAGGCCTGT AGGCCTTTCC 180
TGTGTGCCTG CATCTCAGGG AGGGTCTCTC TCCATGTTGT TGCCTCTATG TTAGTAGTAG 240
ACAACTGTTA TTACTTGGTT CTTGCTGACC TGGTGAGTTG GGGGGCAGGG GTTGTCTTGG 300
GCCAGCCTCA GTTTTTGTCA GGCCATGAAT CCCTGGGTCT TGAGGGTGGG ATTTTTTAGT 360
GATCCTGCCC TCTTCCACTG GTAGAAGGCC TTTAATGATC TGGGCCCAGG ATGATTTCCT 420
GCCCTTTTAT CATGGGTGGA ATTTTTTTTT CCATTTCCCT CACTCTAGTC ACAGTGAATC 480
TTTAACTGTG TCCTGAGGGC AACAGGGTTT GCTGCACTTC TTTTAGTGGC TTAAGGATTT 540
TGTTCTGTAG GGGA 554
<210> 50
<211> 482
<212> DNA
<213>mankind are with reference to genome hg19
<400> 50
GCCTCAGAAG CCTAAGAGAG AGCCCTTTGC AGCAGGCTGC CTGGGTTCCT GAGTCACTTG 60
GAAGAGTTCA AAGCCTTTGC TGATGATAAA TCCCCTTGCA GAGGGCAGAG TGGGCTACAG 120
TGTCAAGGGT TTTGCAAATT GCCAAGACCT TGATTATAAA GTGTTCGCTA AGACAGGAAC 180
TTTTTCATGT TGCAGAAGAC TTTTGCAATC TGCAAAGGAG CTGCTAAGAC TTAGGGAGCT 240
TTGGCAGAGG GTCTTCAGGG GTTACAGTTC CCTTTGTCAG CCAAGGAAAG CCCTTTGCTG 300
AGGCCACTGT TCCTCATGCA GTGGGGCCCC AGCCCCAGGC ACACACGTCA GAGCCTTTTA 360
GAGAGAAAAG TGCCCAGTGA GTGTGCAGAT TCCCACTAAT GGCTTCTTGG CATTGCAGTC 420
CCAAGGGTGC GCTTCGCCAA TGATGACCGA CACCGCCTGG CCTGCTGCTC ACTCGACGGC 480
AG 482
<210> 51
<211> 420
<212> DNA
<213>mankind are with reference to genome hg19
<400> 51
GGAGATTGAG GGGTCTGCTG CAGGCCTCCT CCCTGCTGCC CCAAAGGTAT GGGGAAGCAA 60
CCCCAGAGCA GGCAGACATC AGAGGCCAGA GTGCCTAGCC CGACATGAAG CTGGTTCCCC 120
AACCACAGAA ACTTTGTACT AGTGAAAGAA AGGGGGTCCC TGGGCTACGG GCTGAGGCTG 180
GTTTCTGCTC GTGCTTACAG TGCTGGGTAG TGTTGGCCCT AAGAGCTGTA GGGTCTCTTC 240
TTCAGGGCTG CATATCTGAG AAGTGGATGC CCACATGCCA CTGGAAGGGA AGTGGGTGTC 300
CATGGGCCAC TGAGCAGTGA GAGGAAGGCA GTGCAGAGCT GGCCAGCCCT GGAGGTAGGC 360
TGGGACCAAG CTCTGCCTTC ACAGTGCAGT GAAGGTACCT AGGGCTCTTG GGAGCTCTGC 420
<210> 52
<211> 614
<212> DNA
<213>mankind are with reference to genome hg19
<400> 52
CGAAACGTTA GCGGTCGGGT CTGGGCAGGG GGTGGAGCTG GTTGAAGGAA CGGGGCAGTC 60
CCCTGAGGAG CGGGGCTGGT TGAAACGCTA GGGGCGGGAT CTGGCGGAGT GGAAGGTACC 120
GGTCCGGCCC GATAAGGGGT GGAGTTAAGT GAATCGTTAA GGGTGGAGTC GAAACCGGGG 180
TCGGGGCCGG GGCCGGCTGA GTGAAAGGGT GGGTGATTAT CCCGGGAGAT AGGCCGAAAG 240
GGCAGGTTCG TGAAGGAATG GGGTCTGGGC TGGGCTTAGA GGGTCTGGGA ATGGGGCTTA 300
GGAGAGTAGA AGGGGCGGTG ATTGGTTGGA AAGGGCAGGC CCTAAGACGG ACTGTGTGAG 360
CCCGGGGGCT CATTGCTCCG TGAAAGGGCA AGACCAGGGA AAGAGAATCG TGTAAAAGGG 420
GTGGAGTCTA GCGGGCCGGG CGGGGCCGGG TAGAATGGCC ACCTGAGTGG AGGGAGAAGG 480
CCTGAGAGAG GCGGAGTTTG GAAGGCTGTG GAGAATCAGA TCGCGTAAGG AATGGAATCT 540
AATAGAGGGG GCGGAGCCTG GAAAAGGGCA GAGAGGTGGG GTCCTCAGGG CACACTAGCC 600
CCCTCACATA CCCA 614
<210> 53
<211> 403
<212> DNA
<213>mankind are with reference to genome hg19
<400> 53
GAGCCTGCCC TGGACAAACC AGGGCAAGCT AAACGCTTTG GGAAGCAATG TCATGGTCTC 60
TGCAGCCAGC CTTGGGCAAG TCGCTGAGCC TTTCTGAATC TGTGTCATCG CCTGTAACAA 120
GGGGACCAGT AAACATAAGT TCCTCAGGAG AGTTTGATGT GTGTCAGGTG CTTAGAACAG 180
GGCCTGATAT ATAATCAGCC CATGATGAGC TATTACTGTT ATCATGATCT GATTGTGTGA 240
ATAGATGGTG GATGTGTGGA CAGAGTGATC GGGGTTCCCC CAGGGGCTTC CAGATTTAGA 300
GGCCTAGTGC TATGTGGCTT GAGGAAAGCT AGCTTCCAGA GCAGGTATCT GAGCTGAACT 360
TTAAGAGGAG AAAAAGAGTG AGTCAGATGA AGAGGGTGAC TGA 403
<210> 54
<211> 488
<212> DNA
<213>mankind are with reference to genome hg19
<400> 54
GCCAGGGGTT AGACCAACTC AATCTCATGA TGCCCTTCTC CAACCCCAAA CTCTCCAGGA 60
AGGATGGCCT CACCACAATT AAGAGCACTC AAGATAAAAG CAGAGTCCCC TCACTAGATA 120
AAAAGCAGCT AAAATAACAG AGTCCCCTCA ACAGAATAAA AGCACTGAAA AGTAACAGGA 180
TCCCCTTACC AGAGAAAGAA TACTCAGGAT GGTAACAGGA TCCCCTCACC AGAATAGGAG 240
CCCAGAATAA GGTTAGCACA CCATTAAAAG ATGGACTTTA TCAGAGGGCA AGGCTGAGAA 300
TCCCCAGTAT TAGCAATCGA TCATCTTATA TAATGCAGTA TGGGTCAAGG ATTACAGGAC 360
ACCCCACCAC TGGAGGCCAA AGGTCACAAG GCCATCAAGT AAAAACAATC CCTCCAGGGA 420
GATTTAGAGA AGCCTTACCA TCAAAGTCAG TGTAGGGTTC ATCATGAAGC AGGGCACCAG 480
AACCAAAA 488
<210> 55
<211> 427
<212> DNA
<213>mankind are with reference to genome hg19
<400> 55
TGTGTCATCT CAGAGCGTGT CCTCAACTGT GAGACATGGG CAGCCATCCA CCATCACAGA 60
GTTGTTGTGA GGACTTGAAT AGAGTAAAAG CCATCAAAAT ACTCAGTTCC AGCCCACTGT 120
CAGCGCTCAG TATTTGTTTG TCAGTCTGAT CCTGGACCTC CAACCAGAAT TGGGGTTTCT 180
ACGCTTTAGA AACCCCAAAT CAACTTTTTT TTGTACCTCT ATGAAGAAAC TGAGCAAACC 240
CAATTCATTC AGTCATTCCT TCAACAGATA CTGAGCACCA ACTGTATACC CAATCCCAGT 300
GATGGAAACT TAGAGAAGGA TCACAGCATC TGCCCTAGAC AGTATCTTTG GAAAGCTCAT 360
GAGTTCGATG ATTCCATTTG ATACTTTTAT CCCAACTCTG TTTCTTCTGC AGGGATCGAC 420
AAAAAAA 427
<210> 56
<211> 621
<212> DNA
<213>mankind are with reference to genome hg19
<400> 56
TATTTTTCTC CTCACCCCTG CGGAGGTGGA GCACAGGTGG CTGGTTTAAG TGGGTTAGGC 60
TGGTGGAGTT CCAGAGTTGA GAACCAGTGC TTGGAATCTG AATTGTGCAC CTCAATGAAC 120
CAGCCATTGG ACTGAATCAG GTAATTGAGC ACGCTAAGTT TGTCTGAGAA GTAGGGAGAG 180
GCCAGTTTTC TCTTGATAAG TGGGAAGGGA CAGTTAACTA AAGGTATGAG TCAAGGGTGG 240
GGTGAAGATG CAAGGCTGAC CAGAGAGAAC CTCTCTGGGC ATTGGGGTTT GATTAGATTT 300
GCCCTGACTG GGAGAAGGCA TTTTTGAAAA ATGTGAATTA GTATTTGGAG CGATTTAGGA 360
ATAGTTTGTT TTCATGAGAA ATTTGCAAGA AGAACCACAG GAAAGCACAG GCTTCTAGCC 420
TTCATTTCTC CAGGCCCATG TTTTTTCTGA TCACTTCAAT GCCCCTCTGT ACTCAAGGGA 480
AAAGGGCAAG ATGGGAGATT TGAAGGTGAC TTGAGGACTG ACCCAACAGC CTGTCCAGAA 540
GATCAGGCCA AGATGGAGCT TGTGGGGAAG GGCCTAGGCT GTGACTTAAT TGTCAGGCAG 600
TCCCTAGTTC AGGCATCTAA G 621
<210> 57
<211> 579
<212> DNA
<213>mankind are with reference to genome hg19
<400> 57
ATAGACTTCC AGAGCTCTTT TGCCCCCTCT GCTCCCATGC ACCCTCCCCT TCCAAGTCCT 60
TTAGCAAGGC CTGGATGTTT AGGGAGAAAG TGGTCCAAGG CTGCTGACAA GAGGGACCAA 120
AGGGGGTGCT GGGTTCCCAG GGAGCAGGGA TGTTTAATTA CTATGTCATG TGCAATGTTG 180
TTTTAGGCCA ACCCTTGCCC CAAGCCCAGT CTCTTCTCCC TCCCCACCAT GTCCAGACCT 240
CCCAAATGGT TCTTGTGCAT CTGTTGGAGA AGTCAAGGGA GTAGGGAGAA GGGCCCCAAG 300
GATGGGCCCA GGTTAGGTGA AGAGTAAGAT GTGAGCTGAA CTCCTCGAAC TGAAGAGACC 360
CACACTTGGT CACATTCTCT CACGCTGCCT TCAGGATCCC CAGCCCCCAA CTCTTCTTCC 420
TGAGGATGGA AATCCACTCC AGCCCCACTA GGACTGATGT GGGTGCCATA CAGGCAGGAG 480
CAGCCCACCA GGAAAGTGTA AGGAGGGAGC TGAACTCCCC AGAGTAGCTG GACCACAGAG 540
ACTTGGGTCA GAGCTGATTT CAACCCCAGA ATTGTCTCT 579
<210> 58
<211> 461
<212> DNA
<213>mankind are with reference to genome hg19
<400> 58
TAGGTATCTC ACAGCTCAGT GATACTGGTT GCTTTTAGAG CTCCAAAGGA TTCATCCCTC 60
TGTGGCTCCA GAAAGAAAAT TCCAAGCCAT GTAAATTTAC TACTATCCCT TCCTTTGCTG 120
GATATAGAAG TCCTACCTTC AAGACGTTGT GAAAGGTTGG GCAGGTCCAA GAGAAGGGGG 180
ACCACATTAA GGGAGCTGAT TCCAAAGAGG AGGTTTTTCT ATACTTTGTT TCTACTTCTG 240
TCTGGTTAGA TGTACACTCT TGTCATTTTT CTTTGGTTTA TGTAAGAAGT ATCTGGGCAG 300
GGGTCAAGGC ATTGCAGGGC TCCCTCCCCC TGAAAATCAT GGATTCTCTT AATCTGGGAC 360
AGATTAGGAC TAAATAGTCT GACACTGTTT TCAATTTCCT ATGATCTGGT CATTGTAAGT 420
GGGCAGTAAG CAAATAGCCT TCTGGTTGTC TGGGCAAAAA T 461
<210> 59
<211> 570
<212> DNA
<213>mankind are with reference to genome hg19
<400> 59
ACAAAAAAAA ACCTCAGGAG GCCACAGCTG TCCCCACAAC CTCATAGGTT TATCATATAA 60
GTCTTTGATA ATGAGTATCA TTATAAATGC TCAGAAAAAC CAAAGCTAGA GCTTTTCTAT 120
AGGACCTTAT GTGATGATAC CCAATTTCTG ACAGCTACTG CCTTACTAGG CTCCCAGAGG 180
AGATAAATAA ACTATTGGTG CTATATCTTC AATTTGAGAC TAGGACCTAG TCTTACTGCC 240
ATTCATCTTT GACCAGAACT TCTCCAGAAA CAGACCACTG AATCTGAAGT CCCAGAAACA 300
GGCAGGGAAG GGGAAAAGAT GGACACAATA GGACATCCCA CCAAAATCCT GGAGAAATCT 360
AGGGTAAGCA TTTATATCCT CCTCTAGCTT GGGCCTAAAA TCAGAAAAGT AAAAGTTTTT 420
CCCTCTTCCT GGTTTGGTGA AGCCATCTTC AGCTTATCAG TCCTCTTTCC GTTGTGCCAC 480
AGTTTCTAGC TTTTGCTCTT GTAAGTGGTT CTTCTCCCTA TTATTCATAG GGAGGTAGCG 540
GTTACCATTA TTACACTCAT TGCTGTCTCT 570
<210> 60
<211> 447
<212> DNA
<213>mankind are with reference to genome hg19
<400> 60
AGGTTAATGT CAAAAAGGAT TAAAATTAAC TTTAACAACA TTCTATATAA TGCTACATTC 60
CCCAATTAAG AAAGGAGAGT TCACATATAC AACTAAATGT TAAGTGTGGA GAAGAGGGTG 120
AAATTCTGCA TACTTCATAG TAAATTATGC TGAAAGTTTA TTAATTGCAT AAACTTCCTG 180
AGTGGCTCCC ATGCTGCACT AGGTCTACAT GCTTAATATA TCAAACAAAT TATAGCTTTA 240
GGTGATTGAG CATGACAGAC CTTGAACAAC TGCACTTTCC AGTTAGTCAC TGTATCTGCT 300
GAGGGTATGT TCTGGACCGC AAACCTCAAT CTCAAATCTT AAGTTACAGT GGAAAAGAAA 360
TTCAACTTAA AAAAAAACTA GAGGATGACA AGCACGCATT TAGGAGTTTA TTTTATACTG 420
GCACATTTTT TTCTCAGAAC CCAGTTT 447
<210> 61
<211> 448
<212> DNA
<213>mankind are with reference to genome hg19
<400> 61
ACTTTAGTGT AACCTAGTTA CTATCCCAGG CTCCTTCATA TATTGGCTGT CAGGGTTCCT 60
GACCAATGTT TGTGTTGATC TTTCACATAC AAAGACTATT TCCAGGGTGA CCTGAAGGCA 120
TTTGGTTCCA TAAAAATTTC ATACTAATTT CAATTCAAAG GATTTTATCA AGTTTGAGTG 180
TTACTATCTT ACGATCTGCA TTTTTAAAAT TTCAATCTTA GAAATTACAC CTATCAAATC 240
AAAGGCCTTT TCTACACACC ACCCCCCTTT TCTGATTCCT CTTCTAAACA AAGGGAGGGG 300
GGGAACAAGT CCTTGATAAA CTACAGATTC AAAAAACAAT CTTCTAGAAA ATGGCCTGCA 360
TACCACCTCA GATAGTTCAA GTTTTTCTGA CCCAAACAGA AGATAAAATA ACTGAATCCC 420
AAAATGATGG CAAATATACC TCAGGAAT 448
<210> 62
<211> 525
<212> DNA
<213>mankind are with reference to genome hg19
<400> 62
CTAATATATG TTGAATGATA GGCCATTGCT GAAGGATTTG TCAAATATTT CGCTGTGGTA 60
GTTAAAGCAA TTTCAACCCA TTGCCCTTTA GGCACACAGA CGAGAAATGC ATCTCTAATA 120
AAAAATGCAA AGTTATAGGC ACTGGATTGT CTAATTCAGG TACTTTCTTA CCATTTGTTT 180
ATTTTATAAC TAACTCCTAC ACCTAAATCC TATATTGCCA CCAATTTCAA TTATTCTTCT 240
GCTCTCCACC CCCAAATCCC CAAAGCATAT TTCACAGAAG CACATGGCTC TCCACTTAAA 300
CACAGATGAG AGTGATGATC CCTCTCATCT CAAACTGTTG GCTAGCACTG GGAAAAAAGA 360
GGCAGACCAG ATTTATAATC TGAAAGAATA CTGAGAATCA AGGCAAAAAA GCAAGTTTCA 420
CAGGTAGTGT TTACTTGTGC ACCCAAAACA GCACTGAAAA CGAGGTAGTT AAACAAAATT 480
AATTGGACTA GAATTAAATC TGGGGTTCTA AAATGATATA TCCCA 525
<210> 63
<211> 765
<212> DNA
<213>mankind are with reference to genome hg19
<400> 63
CATTACCACA TATGGAGATA CAGTACTATT CATCAGACTT GCACTTTGAG AAGTAAACAT 60
GGTGGCTGGA CATACAGACT ATCCTCTGAA TAAACTTTAC AAGCAGGATG GTTAAGTACA 120
ACCATTTTCT CCTCTACAAG AAGGAAAATG AAAAGGACAG GTTTGTGTGT TTTTTGGAAA 180
GGAAGGCCCT TTTTATATAG TAGGCTCTTT GTTAAGAAGG GAATTTCTGA GCTTTACCTC 240
AAGTTAATTA TTTCTGGGGA GGAAAAGTAC CTCAGACAAG GATGAAAATA GCACTATTAT 300
ATGATTTAGC AAAATTATGA AATAATGCAA AAGCCCTGGA TAGAAAACTA GCCAGTATTT 360
ACAGTCAAAG TGACTATAAT CTGAACCAAA CATGTAAGTC ATGGGAAAAA ATAATTTTAA 420
TAAAACCCCA CAGTGATGAG AATAACATTG TTTTCTCCAT TTCTGCACAA GCTCACTTTT 480
TTCTGTATTT TTAAATGTAC ACATGTTATA TATACATAAT GTATACATAA CATATATGAT 540
AACCCGGTTA CTGCAGTCAG CATGGAGACA GCAGTACACT ATTCACCATC TTCAAACTTT 600
AGAAGACTAC TTTTCTTTCC AGCAAAAACC TGAAAAGATT GTAAATATTA CAAGGCACTG 660
CAAGAGTCTG CAGGCAAACA AGAATGATGA ATTATATGTG GAATAGAGGT GGTGGCCAAA 720
GGCAGAACAT AGGATGTAGA GCAGTCATTA ATACATGTAA TTGTA 765
<210> 64
<211> 423
<212> DNA
<213>mankind are with reference to genome hg19
<400> 64
ATAAAGAATG AGCAGAAGGA CTGCAAGCAC AAACCCATTG CTCTACTGTG GAAATTAAAG 60
GTCTTGTTTC TCCTTGGAGG GGGAAGAGGG AAAAAGGAAG GTGGGAAGGC CTCAGATATG 120
GGTCCCTGCC ACTTCCTCAA TCAGGCCATG GGGCTCAAAT ACCAAAGCCA GAGCTTCACA 180
GCTGTGATCT AACTTCTCTA AGCCACCAAA TTATCAAGAG CCCCTTTTCA GAAGCTAAGA 240
ATTTGTATGA ATAATGCAGT TCTAAATGGG AAAGTCCCTA ATGTTTTCAT TTTTCTCAGA 300
TGAATTGATT CTGCCTAGGA AGTAATTTGA CTTCCTTCAG GATATGAGAT GGGGCATGGA 360
ATCTCAAGAG GGGAAGGTGG GTTAGTTAGT GTTTAGGCCT TGCAGCCATT TCACAATTGG 420
ATG 423
<210> 65
<211> 440
<212> DNA
<213>mankind are with reference to genome hg19
<400> 65
CCAAATTTTG AGCAAAGGAA AAGAAATCCT AGAAACAATG GCATAGAAAC TAAGGAAAGA 60
AGGGTGTGTT TTGTGAAAGA AAGGAATTTT GTTTATAGAG AGTATTTTCA CACATGAAAG 120
TGAACAGTGG AATATAAAGC ATAAAAGGCA GGATGGAGCC GAGCCATGGA GAACCTCGAG 180
TGCCATGTGA AGAGAATTTG ACTTGTGATG AAGAATCAAG TTTCCCCTTC TACCATTCAT 240
CAGCTACATC TCCTTTTTAA GTAACCCATT TTATCCTTCA GAACCTCACT TTTCTATTTC 300
TGGCCCTGGA CTTCTAAGCC TTGTTTCTTT GTCATCCAAT TCCAATATTG ACAAATAATT 360
CTAAACAGCT ACTTTTAGTT TGTATGTTTA ACGTCCTGTG AAATATTCCT GTATTAACCC 420
CAAGCCTTTT GATGATAAAG 440
<210> 66
<211> 818
<212> DNA
<213>mankind are with reference to genome hg19
<400> 66
CTGGGCTCCC AGCCATCGTA ATCACATTTC TGTACCTGGA AAAAAAATGT ATCTTATTTT 60
TGATAATGGC TCTTAAATCT TTAAACACAC ACACAAAATC GTTCTTTACT TTCATTTTGA 120
TTCTTTTAAA TCTGTCTAGT TGTAAGTCTA ATATGATGCA TTTTAAGATG GAGTCCCTCC 180
CTCCTACTTC CCTCACTCCC TTTCTCCTTT GCTTATTTTT CCTACCTTCC CTTCCTCTTG 240
TCTCCCCACT CCCTCCCTCT TTGTTTCCTT CCTTCCTTAT TTCCTTTAGT TTCCTTCCTT 300
AGCCGTTTTG AGTGGTGGGA ATCAATGCTG TTTCACTCAA AAGTGTTGCA TGCAAACACT 360
TCTCTTTATT CTGCATTTAT TGTGATTTTT GGAAACAGGT ATCAACCTTC ACAGTTGGGT 420
GAACAAGTGT TGTCCTACAG ATGTCCAATT TATTTGCATT TTTAAACATT AGCCTATGAT 480
AGTAATTTAA TGTAGAATGA AGATATTAAA AACAGAAGCA AATTATTTGA AGCTCTCTAA 540
TTTGTGGTAC GATATTGCTT ATTGTGACTT TGGCATGTAT TTTTGCTAGC AAAATGCTGT 600
AAGATTTATA CCATTGATCT TTTTTGCTAT ATTTGTATAC AGTACAGTAA GCACAATTGG 660
CACTGTACAT CTAAAAATAT TACAGTAGAA TCTGAGTGTA ATATGTGTAA CCAAAATGAG 720
AAAGAATACA AGAAATGTTT CTGGAGCTAG TTATGTCTCA CAATTTTGTA GAATCTTACA 780
GCATCTTTGA TAAACTTCTC AGTGAAAATG TTGGCTAG 818
<210> 67
<211> 458
<212> DNA
<213>mankind are with reference to genome hg19
<400> 67
CCTGCAGCTG CCTTTCCAAA CGGGGTCTTC ATGCCTGCGA AGAGGAGCAC AGTTGCCAGG 60
TGGACCGAGA AAGGAAATTA ACAAAATCAA TGCATAACAC GGAGAGCTTT TTCTCCTAAT 120
CAGCGCACCC AGTAAACCCA CACCTGTTTT TCCCGAAAGC TAGATAGCAA AGCTGGAAAT 180
CAAGGCACCC TGGCTGAGTG CCTGCAGTAA CCTTCCTCCC CAGCTCAGTC TGGCTAAGAT 240
CTGCGGTTCG GTGAAATACG AAGCGTTTCC CCATTCCCCT CGCCCTGCTT CCAACACTAC 300
CCGGCCAGGA GGCGCAGATT CCCCACCGTC CCGGATTGCG GGCCTCAAGT GCACAAATCG 360
GACACCTCGC CGTTGCCTCC GCAGTGAGCC TATGGAGGAG GAAAATCAGC GGGCGAGCAG 420
CCCGGTGCTT GCAAAAGCTG GGAGAGGATG ATCCATAG 458
<210> 68
<211> 441
<212> DNA
<213>mankind are with reference to genome hg19
<400> 68
GTCTATAGCT GTATAGGTCA CTAATCTGAC TTGATGATTT TAAGTCACAT TTCATAGTTT 60
TAACTAGTTA TGAGAGAGAA ATTATATGGC AATATTTGAA CATTGCTTTC TTAGGCACCA 120
GAGCAAAGCA ACTCTGTTTC CTTTGCACAT TTTACCTGCC AACATTTATT AACAGTTCTT 180
ACCTTCCAAG TCTCTTCACC TTAGCAAATT AGGGATCAGG TTGCAGTCTT CTGCAGAGAA 240
ACTGATGGTT AAGCTCAAGT TCCAAGCATA GTATGTGTGT GCTACACAAG CTCAGAAGAG 300
TTTGACAAGG ACCAGGGGAC TTACTACCAC AATCCACTTC CCTTATCCCA GGAGAGATGG 360
CCAAACCCAT GTGGCATTAA ATGGTGAATA AAAAAGCTTC ACTCAAGGAG GGACTATTGG 420
ATGCTCTTTG GACTTCTGAC C 441
<210> 69
<211> 408
<212> DNA
<213>mankind are with reference to genome hg19
<400> 69
CCAGCCCCAG CCCGGCTCCA GCGACAGCCA ACGCCTCTTG CAGCGCGGCG GCTTCGAAGC 60
CGCCGCCCGG AGCTGCCCTT TCCTCTTCGG TGAAGTTTTT AAAAGCTGCT AAAGACTCGG 120
AGGAAGCAAG GAAAGTGCCT GGTAGGACTG ACGGCTGCCT TTGTCCTCCT CCTCTCCACC 180
CCGCCTCCCC CCACCCTGCC TTCCCCCCCT CCCCCGTCTT CTCTCCCGCA GCTGCCTCAG 240
TCGGCTACTC TCAGCCAACC CCCCTCACCA CCCTTCTCCC CACCCGCCCC CCCGCCCCCG 300
TCGGCCCAGC GCTGCCAGCC CGAGTTTGCA GAGAGGTAAC TCCCTTTGGC TGCGAGCGGG 360
CGAGCTAGCT GCACATTGCA AAGAAGGCTC TTAGGAGCCA GGCGACTG 408
<210> 70
<211> 503
<212> DNA
<213>mankind are with reference to genome hg19
<400> 70
CCTTCTCTCC CTTGATATCT GGCAGGGCAT AAAGGCCCAG GCCACTTCCT CTGCCCCTTC 60
CCAGCCCTGC ACCAAAGCTG CATTTCAGGA GACTCTCTCC AGACAGCCCA GTAACTACCC 120
GAGCATGGCC CCTGCATAGC CCTGGAAAAA TAAGAGGCTG ACTGTCTACG AATTATCTTG 180
TGCCAGTTGC CCAGGTGAGA GGGCACTGGG CCAAGGGAGT GGTTTTCATG TTTGACCCAC 240
TACAAGGGGT CATGGGAATC AGGAATGCCA AAGCACCAGA TCAAATCCAA AACTTAAAGT 300
CAAAATAAGC CATTCAGCAT GTTCAGTTTC TTGGAAAAGG AAGTTTCTAC CCCTGATGCC 360
TTTGTAGGCA GATCTGTTCT CACCATTAAT CTTTTTGAAA ATCTTTTAAA GCAGTTTTTA 420
AAAAGAGAGA TGAAAGCATC ACATTATATA ACCAAAGATT ACATTGTACC TGCTAAGATA 480
CCAAAATTCA TAAGGGCAGG GGG 503
<210> 71
<211> 422
<212> DNA
<213>mankind are with reference to genome hg19
<400> 71
AAACTGAACC TGCACCCCCT CCCTCCTTCA AATGTTTGCC TTTCAATATT TTGTTAGGCA 60
GGCAAGAGTC AAGAGTCATG CCAACTCTAG TAATGTGGCC TCTGTTCAAA CACCTACCAC 120
AGTGTGGCAA AGGGAAAACA GCATGGGCTA AGAGTGGCCT GGATTCAAAT CACAGTCCTT 180
TTATTTACTT TCTATGTGCC CTTGAGTTGT TTACTTTAGC CCCCTGGGCC ATAATTTCTT 240
TCTCTGTAAA ATGAGAATAC TTGCATGAAT ATGAAACACT GAGCAGTTAA TAAATACGTG 300
CTTAATAAAT GTTAGGTTCT TTGTTATCCC TGCCAGTTCA TCACTTTCAG TTCATCCATT 360
GCCAGATTCT CTAACTTGCT GGCCAAGGTA TGTTGATAAT TTCCTATAGC TGCCACTCTT 420
CT 422
<210> 72
<211> 563
<212> DNA
<213>mankind are with reference to genome hg19
<400> 72
TTTCTTATTC CCCAGTTTTT CTTTATCATA TAATTTAAAT ATTTATTCAT TTTGTATTTA 60
AAGACTACCT ACACATAGAT ATATGATTCC AAAGTCATAC TTTCTCCATC CCCACATTAG 120
CCAAGTGAAT ACAGGGCCAA ATGGGTTCTT GGAATGATAA TAACAAAGCA TTACAAAGTG 180
GGTCCCCTTG GTTCCAGCCT TGTCCAGAGT TTTTGGTTAT ATATTTCTAT TTATTACAAT 240
TTACCTTTTA AATTGTAAAA TAAACCTTTG TGTGGACAGA GCCAATGTTT CAATCTTGAA 300
TGAGTAAAGA AAATACTTTG GAACTGATCC TCATTTTGAA ATTGGTTCTA AATTATTATC 360
CATTTCCAAT GTCTGAAATT CTCTTACTTC CTGCTAAAAC TCTCTTTCTG CCAAAGTTGT 420
TTCGTAATCT GTCTCAATGA CTATAATGTA AAATTAAAGA AGTAACCATG CTTCTCAAGG 480
GGGAATTAAA AGTGTTTATT GAATTTTACT CAGGCTAATT GTTTGGTCAG AAATTCCTAA 540
GGCCACAGCT TTGGGGGGTT CGT 563
<210> 73
<211> 414
<212> DNA
<213>mankind are with reference to genome hg19
<400> 73
TACTTTGTAA GCTTCAGCCC CTCCTTCTAG TCTGTCAGGA ATGGGAATGT TTTTGAAAAC 60
AGACTCTGAA AGCCAATGAG ATGTGCTCCT CCTGCCCACA GTTGGACCCA GGCTCCATAT 120
TTGATCAGTG AACAGCCACG TCCGCACATG TGCCACAAGG CATTTGTCTG CAAATTCATC 180
CGGAGACCTT GACAGATGCC TGGAGGTCAG AAATCAGCCT CCTCTATGCT GCCATGTGGC 240
CCCAGGAGCC TGAAGGAAAC ACCAAGTACA TCTAGAAGTT GATGGTTGAC CGATGGGAGA 300
GGGGGCAAGA TGCCAGTCAC TCAGTCAGCC AACCTTTCCT GAAGATTGTT GGAGGCTCCA 360
AGTGACATAG GGGATAATGC AGAGAACATT CAGAGACATC ATCTACTGCC TGTG 414
<210> 74
<211> 460
<212> DNA
<213>mankind are with reference to genome hg19
<400> 74
CGGCCGCCTG AAAACAGAGG CAATGCAGCC AAGCTTTGTC CATTCCCACT GTGGGCCTGC 60
CCCAGGGTGC TCTCACCCCC TGCTGTTTCC TGGCCTCTTA AGTGGCAACC AAGGTGGGCA 120
TATCAGGGCA ATTTAGGACA GGCCTAGCTT CTGCTTCACT AGCTGCCCCT CCCCTAACCC 180
ACTCCAGTTC TGATCTGGGC CTTTCTACCA CCTTAAAAGG ACCCCTTCCC TCAGCCTCTC 240
TAGCCCAGGG AGGGACAGGC TAAAGGGCTG TCTGGGAATT GGCCAGAGCC TCTCAGGATT 300
GTGATGAGAG AAGGGGAAAG AGCATGTGGC ATGTGGCAAC ACAGCACCAG CAGGATGCTT 360
ACCTCGCTGA GGGGTCTTCC AGTCAAAAGC CAGCCAGGTA AGAATAAGCA CAGTGACAGG 420
CCAGTATGGT GTGAACACCA CCAGGTAGAG GTTGACAGCA 460
<210> 75
<211> 446
<212> DNA
<213>mankind are with reference to genome hg19
<400> 75
TTTAAGTGAA TGCATAGAAT CCAATTTGCC AAGGTTCTAA AGGCTTATGA GGTCCTGAAG 60
GAGCCAGGCC TTGTGATGGA GTAGGTGACA CAGGCCTGGT TGTCCTGTCA GCAGAAGGGA 120
AAGCAGGGGC TGGGCTGAGA GGAGGACACG GAGGGCTCTG CTGAGGTTCC TTCCTGGGTT 180
CCACCAACAG GGACAGGGAG TCACTTGCCT TCCAGTTCTG TGCTGGGATG GCGGGACAGC 240
ACTTGGCTTG CTTGGCCAGC TGCGTCATGA GTTTGATTTG GTTTTTTTTT TTTTGCAGCT 300
GCTTCATATG CTCTGCTCCA GCCCCTCCCC AACAGCTGGT AGCTTATGGT TTCTTCAAGA 360
GGAAAGTAGA CTTTATGCTG TACATTTGAG CTGTAGAGCT AAGATTCGCT TACTGGTGAG 420
CTGTGAAACC TTGTTGCTTT TTCCCA 446
<210> 76
<211> 551
<212> DNA
<213>mankind are with reference to genome hg19
<400> 76
AGAGAAGATG TAGGCAGTGG CGGCAGGCCC TGCGCCCACA GCTCCTCGCC TGTCCTTTGA 60
CCACAGATCC CATCCTGCAT GACTCAAGGT CCCATAGGCT TGGCCTAGCT CTTATGATAG 120
GGGAACAATA GAGGGGAACC CAGCCTCAAC CCAAGTCAGA AGGTAGTTTT TGCCTTGGGA 180
GGTCTGTCCA TTGAACTAAA GGGAGGCAGT TACAGAGGGG GCTAAGCATG TTGACACCAT 240
GGCTCATGGC AACCTAAGAT GGCAGAGAGA CAAACACAGA AACCAAGGGG ACAGGAGTCT 300
GCACAACAGG AGTCTGCTCC CCGTACTTAG TCATTCTCTG CCTCTGAGGA AAAAAAGGCA 360
TTTGGAAGAT TTTAAAAACG GCAGCACCAA GGATTGGTGC TTGCCGAGGG GGTGAGGGAT 420
ATGCGGTGGT GAGATGGTGC CAACAACCAA TTATTTCATA GGAGGGGAAG AGTGTCTAAG 480
CTCTGTGTTT TATGTAAATG GTCCCCTCAT CGCTTTCATT GTTTATTTCT TACCTTTCAG 540
ATAAGACCTT T 551
<210> 77
<211> 414
<212> DNA
<213>mankind are with reference to genome hg19
<400> 77
CACCCCAACC CCTTAAAAAA AAGGTCAGAA GGACAAAGCT GGTTTGTTTG GGAAATGGAC 60
TGATCGAAAG AAAACTTGCC AAAGTGGAAA GGTGGCTTTT AGCATTCTGT GTTTCCAAAT 120
AATGAATTTG AACACCAGGT TGGGTTAATT AAAGCTTTTG GTATAATTTA AAATTAAATT 180
TATAAATGCA GTTGTCTTGT TACAAGCCAC CTTACGCAAC CGCGCTGCAG GGGTGAGGAG 240
TGGGGAGAAA CCAGAATGCT TCTGAAACTC CCACCTGTTG CTCTGAGCCC CACGCGCATG 300
CTAATGCGTG GAGTGTATGC GCAGAGTAGC TGTCTGTTTG ACTGCTTCAT CCAGGGAGGG 360
AGAAGGCTTT TCAGCACCAT CTAATGTTTT AAAAGGCACT AGTTTTAAGT GCAC 414
<210> 78
<211> 556
<212> DNA
<213>mankind are with reference to genome hg19
<400> 78
CAATAGCCCT GATTAACCCT CTCCCTTCTG CATGTTTCCC ATATTACAGA CTTGAGACTG 60
TCCTCATTCC CATATGTAAT AGACATCCAA AGAATTTCAA TTGCTTTGTT GAACTTTTAC 120
TAATGATCTT GTTTTTATTT TCTCTCTTGT TTTTGGTTTT TCACCATTGA TATTGTATTT 180
AGAAGGTTTC AGGTGGGTGA AACCTCCTAT TCCATGCGTA AGGTGCCTCG CTGAAGGGAG 240
CTCGAGGCCT GGATCTAGGG CAGACACACA ACCTCCTCCT CCTCTTCCAG CAAGGAACGC 300
ACCGAAAAGT CACATGATGA GAAATATGGT AACGGGTTTG TAACTGCCAC AGCAAAACAA 360
TTTGCCTCCA TGCCTGAATC TTCTGTCTTG TGGCTTCAGA AACAGCTTAA AATAATTTTA 420
TTTACAAGCA AGTTATGTAA GAGAATGTTT TATACTATAG CCACAATTCT GTCAAAGATA 480
AGTAAAAGTT AATTGATATT AAAAATTATT AGAGATAATT TACTTAGTAA AAGCTTCTAA 540
CTCTTCTTGT TGTTCA 556
<210> 79
<211> 512
<212> DNA
<213>mankind are with reference to genome hg19
<400> 79
TGCAGTGAGC TGTGACCATG CCACTGCACT CCAGCCTGGG TGACAGAGCA AGACCCTGTC 60
TCAAAAAGTA AAAAATAAAA TAAAATAAAA ATAAATAAGT GACATACTAG TTCCTCGGAT 120
CTTTTACTTT TTTCCAAATG AAGTATGCTG TCAATTTACA TTTTTCATGT TTTTTCAAAA 180
GCACACAATT TACTAGTTAA CTCAATGAAT TACAATACTG TTATTGAATA TAAACATACT 240
GAAGAATTAA AGGGAAAAAA ACACACCTGA CACTTTAACA TGTGCCTTAA CAATCTTGCA 300
TACTAAGGTA CAGAATACTT CAGAAAGTAA CAATTAGCAT AGTCTTATAA GACTAGGAGA 360
ATAAAAGTGC CCTGCAAACA TGGCTTCTAT GTACTTAATA TGGTAAAACA TGTGACAGGG 420
AAGCCTGTAA GGTAAAACTT AAAAAAAAAA TCAAATAAGG CAGATTATAA TTTTTTTTGT 480
TCGCAAAAGA ACAAAGGAGA AAAGGGGAAG AA 512
<210> 80
<211> 627
<212> DNA
<213>mankind are with reference to genome hg19
<400> 80
GGAGTACTGA ATAAAAAATG TGATTTAAAA ATTTGTACTT AAAATTGAGA TTTAAGTTTA 60
GTGTGTGGCA TCAAATATTG GTTATCCTCA GACTAAGGGT ATATGGCCCA AATCAGTTGT 120
TGCCACAAAT TGTTCATCTT ATCTGATAGT AAATGTACTT TACTCATAAG AAGAAAAATT 180
TGGTTGAACT GGGATGCCTT AACATTTTCT TTAAATGACA TTGGCATTGC AAGATTAAAC 240
ACTGAAAGAA CACTAAAGCC ATGATATGAG TGCACTTTTG ACAAAACTGG AATAAAACAT 300
TTAGGAAACT ATTTAAATAA AAGCATTCTA TATACTTCAT TTATCATTAG TGTTGATTTT 360
ATAGCTATTT TTATAATTTA TCCCAGACTA TTATAAAATA TATAAAACTG AGATATAAAG 420
TATCAGCAAT ATAACTTTGC ACTTTAAATA ATTTTCAGCT ACAGATTTTG CTTTTAGAAA 480
ACAAACTTTG AAAGCAGCTG TTTTGTTTCC TTGTAAAACG TTCTGTAAAT GCATATACTT 540
GGGTCCCTGA TGGACTTAGC TGTTGTGGCC TTCAGACTTT TCCAAAATTT TAACCCTTAC 600
ACAATGGAAC AAGAAAATCT TTATTTT 627
<210> 81
<211> 496
<212> DNA
<213>mankind are with reference to genome hg19
<400> 81
TATTTGTTTT TGTAACTTTA CATGCTGCTG AATTAGATCC TTGATTCCCT CAGGGTCATT 60
TTTACAGAGT TTTTGAGCTG TTATGTTTGC TTGCAGGGCC CAGTTATATT CCCCCAGCAT 120
AGAAAGAGCA TCACAATAAC GATAATGACC CTTTGGCCAA GTGTTCTTCA GAATAGTGGC 180
TCTCTTTCCA TCACCAAGTG CATTTCTAAA CTGTCCAGTA CGAAGAAAAC AAAGAGCTCG 240
GTTACCATAA AGAAGGTGGT TTTCAGGTCT ATATTCAATG GCTCTGGTGT AATAGATAAT 300
AGCTATATCA AATCTTTCTT TGGAAAACTC TTCATTTCCT TTCATTTTCA TTAGTTCTCC 360
TTGCTCTATA CAATCCATAC AACTTTGGGT TTTAAGTTCT TCAAGCAAAT TGCAGTCTTC 420
CATTACAATT TTAGTTATGT GGTACTTGTA TTCAGTAAAG AAAATACTTA ACATAGGCCA 480
ACAATTGTCA ATTGAT 496
<210> 82
<211> 692
<212> DNA
<213>mankind are with reference to genome hg19
<400> 82
AAAATGCTAG AACTTGATTT TCTAAGTCCA CATCCCACTG CCAGCAACAG GATGAAGCAT 60
TAGCACTGGC ACCATGCAGT TAAGAGATGT GCTTTATATT CGTGCCAGGA GAGAGAAAAT 120
TCATGTGTGG AAGATAATCC ACAACCCTGA AATTTTACCA GTAATTATTT CAGCACATAT 180
AACTGAAAAT AAAAAATGGC AGAAGGACTA AAGAAGAAAA AGGAATTCTC TTCTTAGGCT 240
ATACTTAAGG CTGTTTATAC AATGCTAAGA TAACTGCAAG ACTTCTCCAA CTTTTAGAGC 300
AGTAGTATTT AAGAATATTG CACACAATTC TGTGTCAAAG ATAACCCTCA GTTTCTAACT 360
TTCAGTCACA GAGACAATAA AGCAGGAGCC CAGTTTCAGA CTTCAGTCAA AAGAACATTA 420
AAACCATTTC AATCACTTTA ATCAAGAAAT GGATTAAGTA CAAAAGTATT TCATAACTTG 480
AGGAATCAAC TCTAAGAACT CAGCTGTGTG TTTTTATATG TAAAGAATGA ATATATAAAT 540
CTTTATTCTT TCCTAAATTT ATTAATTTTA TGACAATTTT ATGGTTGCTA AAAGCAGGCA 600
TAAAAATTTA GAGAGGAAAT CTGTGGAGTT GTTACTATTA TGGAAGGACT TGTTTTCACT 660
GAAAACAATT TGAAATATCT TCTGTACTCA GC 692
<210> 83
<211> 534
<212> DNA
<213>mankind are with reference to genome hg19
<400> 83
TCTTTATTCA TATGTATAGA ATGCTTAAAA TAGCACTGTA GACAAGATGT TTCCAAAACT 60
TTAAGTGCGC ATATCTTTTC TGTATACAGC TTAAAATCAA AAATGTATGT TAAGAGAATT 120
TTTTCTATTA CTTATGGATC ATGCTTTAAA ATGATTTTTC TTGATATTTA TTTTACTCCA 180
TTTTGTTTTT TTCTCTGGGT GAGGCATCTG GTTACTGGTT ATTTTAAAAA GAATAAAGAC 240
ATTCCTGGAA TCACTCCTTT TGGGTTTTTG TTTGTTTTGT TTCTTTTCTA CATTTTTAAG 300
TATTATTTTA CAAAATAGAA AAAATATAGA TTCATGCCAA ATTATTACCT ATTTTTACAC 360
TAACTTTCTG CAGTCCCTCC ATCTGGTATG AGTAACCAGA TAGAGCACAA AGCATGAGTT 420
CTTGTTCTTC AGTTAAAAGA GCTTCTTTCA CAGTGTTGAT AACAAATGCC TTTTGTAGCC 480
AAAACCAGGC GTCTCAACCT TACGTTTTTA GTTAAAGAAA TGTTTAGCTA AACG 534
<210> 84
<211> 409
<212> DNA
<213>mankind are with reference to genome hg19
<400> 84
CAGCATCATC AGTTTTCCCT AATGACCTAC AATGCTTTCC AATCAAGATC AGGTGTTTGT 60
GGGTTATTCT TTACCAAGAG CGCCTTCCAA TCTATGTATC AGACAAGGTG GTAAATTTTC 120
TTTGTTTCAC AAAAGCAATA TGATTCCTAT TTGAAATTAA TTCACTTTTG CACAACAAGT 180
GACCCACAAG CCAATTCCAG CGGCACAAGA AAACGAAGAG AGCTGCAACA ACTTCATTAG 240
GACAATGTGT TTTGCTCTGG AATATTTCAT TATCAATATA AAGCCACCCG GTCCCAGCCC 300
CACCCCCAAA CATCCCCTTT GAATATTACT TTGTTACATA CTTAAACTAA AGAACAACAT 360
CTCAATACAC TTCAGTGTCA GCAGATACAA TTTGACTCAT GAAATGACA 409
<210> 85
<211> 778
<212> DNA
<213>mankind are with reference to genome hg19
<400> 85
GGATATAGAG AAAACTAAAT ATTCCTTCTA CCTCAGTCTC CATTCCTAGA GGCAGCCACC 60
ATGACTAGTT TCTCATCTAA CTTCCCAAAG TCTATGGACC ATGTAAAACC ATCCCACATT 120
TAAAACGCTA GTGTAAAAAA AAATAAGATG AACTTTGTCA TGTCATTGTG TAGTTCTGAT 180
AATCAAGAAG TTGCTGAATA AGTCCTCTGT TTTAGCTATT TCTTCTTAGC CAGATGATTT 240
CCCTACATTA TTTTGTAGTT AAGTGACTCA TCTAGTTGGC AAGTGACAGA ACCAGGATTC 300
CAACACAGGT CTGCACTCAG ATCCCAGGCA TGATTATGCC ATACTGCTAC ACTGTGGCCC 360
GAGGTGCCAT CTCCAAAGTA ATATTTCCCT GGCCTCTGTA ACCAAGAGCA TAGCAATTGG 420
AGCTCCATGA ATTGCTTTAC TTCCCACTTG GAAGTAAAGC AGTGGCTTGG CAAAAGGGTA 480
CAGATTAGGA TATACACAGA AGGTTAGCTC GGAGAAGAGG TGCGAGTTAG GATGTTAGGA 540
TACACCCAGA TTCTGGAAGG TTAGGAGACA AAGTTTGGTA CACATATGAA AATTTTTTCA 600
AAGCAAAACC ATGGCTTCAC ACTTTGCCTG GTTTACACAG AACTCACACT TGATAGACAA 660
ATGCCTCTGA AATTGCTGTC AAACTCAGAA ACACCAGCAG GGGGCACTAG AACTCCAGAG 720
AAGACTACAT TCAAAGACGC TACCAACATA GACCAGCAGA GGCTACTGCA GACAATTC 778
<210> 86
<211> 409
<212> DNA
<213>mankind are with reference to genome hg19
<400> 86
AATGAAACCA AGGAAGATAA CAATAAAGGG AAAGCAGGAA TGTTCTCTGG ATGAGGACAA 60
ATAAGGTTTG CTTGGAGGGT ATGGCATATG TGAAAGTCTG TGGCTAAGAA GATCAAGACA 120
GTCCATAGAA GGGGAGTTCC AATCTTGCCA TAAAGCAGGA GTCAACAAAC TACTTATGTC 180
AAGAGCCAAA GAGTAAATAA TTTAGGGCTT TGCAGGCCAT ATGGTCCCTG TTGCAACTAC 240
TCAACTCTGC CATCATAGTG CAAAAGCAGC CATAGACAAT ACATAAACAA GTGAGCTTGG 300
CTGTGTTCCA ATAAAACTTT ATTTACAAAA TCAGGCAGCA AGACAGAATT GGCCTAAAAG 360
CTGTAGTCTG CTAACCCCTG CCATAAATTA AATTCCACTC TTCTGAGGC 409
<210> 87
<211> 415
<212> DNA
<213>mankind are with reference to genome hg19
<400> 87
TATAAAATAT TTTACTTGGT TGTTTTCTAT GGCAACCTTT AACTATGTTT CATAAAGGCC 60
CATCAGAGAA TAACACATTC TAACTCCCTT AAAATCTGGA TTTCAAATCC TATTTCAGGA 120
CCCTTTATAA GTGATTTTTT ATTTTTTTAC CTCCTTTCCC TCTCTCTGAT CCTCACTACC 180
AGCCACTACT CTCATCTCAC CCAAATACTC ATCACAACTA CCCATAAATT ACTCTGTTGA 240
TGCCACTCAC AAGATAGGAA AGCAATTTTC AAGAAAGAAG GAATTAAATG AAAAACTATA 300
AAAGACAGTG GAGTTGAAAT TTAAGACTTT TGAACAGGAG AAATGACAAT ATGGAATAGG 360
GAAGGTTATA TTTAATTGAC TAAGGGCAAA ATGAGTAACA GTAAAGGTTC TTGTA 415
<210> 88
<211> 517
<212> DNA
<213>mankind are with reference to genome hg19
<400> 88
AATATGTTAT AGACGCCATA GACAGGTGAT GTTTGGTCAC CTATGGTAAC TGCTACCTGA 60
TGAAGAGCAT AATTTCTGCA TATCCATCCT CAATACCATG GTAAATTCTG GGGCAATAGA 120
GAAGCAACAG AACTGCCACA AAGTATACCT CAATATAATT CCTCTAGTTC TGCTTCTAAA 180
ATCTGAGGAC AGTGCTAGTG GGAAAATAAT TTTCAAACTA CCTGGTTAAC CAAAATACAA 240
AAGCAGCTGA CTATGTGTGA TTTCATAATA GCACATTTCT TGACACTTAG TGCTAGAAAT 300
GAAGATTTGG ATTTTCCTAA CAACTTACAT CAAGAATGTA GTGTAGCTCA TTATTGAGAA 360
TTTAGGAAAG CCTGAATCCA TTAATTAAGG AAATAAATGT GACTCACATT TCTTTTACTG 420
TGACACAATA ATGTGATCCT AAAACTGGCT TATCCTTGAG TGTTTACAAC TCAAACAACT 480
TTTTGAATGC AGTAGTTTTT TTTTTTTAAA AACAAAC 517
<210> 89
<211> 481
<212> DNA
<213>mankind are with reference to genome hg19
<400> 89
GAGCTGGCCT GAGGGGACTC CAGGGTGCCT GGAAAAGACA AGCTGTGAGG AAAAGAGTTG 60
GAAATTAGCG CCTAAAGCCA GCCACCTTCG GCTCGGCCCC CTTCTGGCTG TACTGCTCCG 120
GGTGCGAATA GAAACAGCTG GACAAACAGC TCCGAGCGGA TCCTTCGGGC TCACTTCCTC 180
CTCTTCCTCC TTCTCCTCCC CCTCCTCTTG AGGCCGGGGG CCGCCCCCCT GAGGTGCCAC 240
ACGCGGCCCC AGCGCAGTCC CAAGTTTCCC AAGTGTGAGC GGGGATTGGG GCGGACCTGT 300
GGAGGCAGGA AGGGCGGGCA GCAGGGCAGA GGGAGAGCCA GGGCGCGCCC TTGCTCCCTC 360
CCTCCTTTGC TCCCTCCCTC CCCGGTTTGC AGGCTCTCAG GCTCTCGGGC TCCCCTGGGC 420
TGTGACGGCT GAGCGGTGGC AGGAGCTGAG AGCGAGTGAG CTAGTTAGCG GTCTGCACGC 480
C 481
<210> 90
<211> 406
<212> DNA
<213>mankind are with reference to genome hg19
<400> 90
TAAACAAACT ATAGAATGAC ATAGTATATT CTGGATAAGA GATTTATTCC TTTTCTTTTC 60
TCTTAGATGA TAAGAAGATA TGTTTTAGGG TTTGTGGCCA GTCCAAAATA AAAAGGGAAA 120
ACTTTCTGGT TTCTTTGTTT TTCTTCTATC TTAATTTCTG GATATACTTC AATAATCTCA 180
ATGCCTAGAT TTTTCTGGTC TTGTTAGTCC ATCCCTTTTT AGTGATGGAG TTGTTGGCCT 240
TTGTCCTAAT GTTATTATTA ACTAATTTGA AAAGACTTAT AAACAAAGTG ACAGTTAATG 300
CTAATGTAGT AGTATTCTTA ACTGCGTGTC TGAGATAGTC CTCTGAATAC AGTTTTACAA 360
TTCCCTCTAC TTCTCTCTTC AATGTGAAAA CTTTGGTGGT GTTTCT 406
<210> 91
<211> 448
<212> DNA
<213>mankind are with reference to genome hg19
<400> 91
GTGGAAGATT GCAAGTGATT GCTTCCGTTT TCAAGATTGG TCTAGTAGTT AAAGGGGCAA 60
AAGTCCATTC TCATTTGGTC CATTAGTTCC AGCAATTGAA ATTTATGTGA ATTATTTTGA 120
TTGTAGAAGC ACTATAATAT GTGCTGAAAC TAAATTTCTT TAATATTTTC TATTCCTGTC 180
AGCACCTTTT CTAGCAGCTG CCAGTTTGGA GCATTGCCCT CTAAGAGCTT TAAAACTATT 240
TTTTTACATG CCTTATATAC ATTCCACTAA TGACATTCTT ATAATAATAT TAAACACATG 300
ATCTTGGTAC TAACATACTC ACTGTGAACC CAGCCTATTG CAAAAATAAA ATCTTTTTAT 360
AATATTATCT ATGGGATGTC AGCACAATAT AACACTCTGG GAAGAAGTGG AGTTTTTTGG 420
TTATTAGGTT AATTTTCTAG TAAAACAC 448
<210> 92
<211> 452
<212> DNA
<213>mankind are with reference to genome hg19
<400> 92
AAGTTTCTTA TGTATCACAC ATCCCCCAAA TAAGTGATTT TTTCCCAGTG CTTTGTACTG 60
TCAACTGCAT TATCTTTAAT TATTTAAAGG TAGAATTATT TAATTTTGTG ATTTGTTCTT 120
CCATATGACA TTGAGCAAAT AGATCTGTTT CAAAATATGT TCCCGCTATG TGGATAACTC 180
TTCTTTTTAA AAAGAAAATA GAGAATAGCA AATCTTCATG ATAATCCTCA AAAGAACAAA 240
ATGCTTAACT TTATCTCTTA ATTTCTAAAG GTAAATAACC TAGGTTCAGC TTTTGCTTAA 300
ACATTAAATA TCTTTTCCAT TTTTTAATGT TTGTAAGCTA GATATGCCAG CTTTGTTTCT 360
ACATTGCAAC CAAAAACTGT TTCTTTTCAC TTAATTATAA AACCAGTAAT TCATTTACTC 420
TTGCCCAAAA CTATACACTG TATTTCTGTT AT 452
<210> 93
<211> 404
<212> DNA
<213>mankind are with reference to genome hg19
<400> 93
GTTATCAAAG ATAAATTCAG AGTTTAAATC TCTTTCCCAG GTTCAGTGCT GTGCAAGGGT 60
TCTAATTCCA AATACTTATG ATTTTATCAC CTTTTCTAAG AGAAAATGTT TGCCTGTTAA 120
CTTTTTACCT TCCTTGCTCT TGGTCTCAGC TTTTCAGTTT GAATAAACAC AGAAAGGCAA 180
TTTTCAGCAT TTCAAAAAAT GTACTTTCCT CTTAGTCATT CAAATAATTA CAGTTATTTT 240
TAGATCTCAA AGTTTCAAAA AAAGCAGCTC AATTTCCCTT TAAATATATT ACTAGATATT 300
TTTTGGTGTT GTATATGTTG TTCTATTCTT ATTTTAGGCA CTGTAATTAT TCACAACATT 360
ACAATGACTC TATATCTAAC CTATGCAACA ATTATAATCT TAAT 404
<210> 94
<211> 476
<212> DNA
<213>mankind are with reference to genome hg19
<400> 94
GTCCCATTTA GTCTCCAGCA CAGCCCTTAC CACGGGGGAC TGAGGCCTTG TTTCTATACC 60
AGCGGCAAGC CCAGAGCCGA GGGATTTCAC AGCTCGTGGT CAAGACAGAA CCAGCCAGAT 120
TCTGGTCACT GGTGTCCCAT GACTCAAAGT AAACAGCCAA CCAGCCACTC CCTCCAGGAT 180
GCTGCCTGGG GTGGGAGGTG AGAGCACCAC CCAGCCCAAG GGCTAGATTC CATTGAGAGG 240
GTTGGAGATC TATTGCAATG ACAAATCCAA AGTGAAGAGG GTCAAGATAT ATACAGTACT 300
AGGCCAGACC CTGTGTAAGT TCTGCCTGTG AGAGTTGAGA ACTGATGCAT ATCCCAATCA 360
GAAGTGAGCA CAGAAAACTG TGATTTGAAT CATACACTCT GTTTTAGGAA AATGTTGATA 420
ATAGATACCA TTTTAATCTT GAGTGCCCCT TAAATGTGTT CCCTCTCCCT TTCCCT 476
<210> 95
<211> 561
<212> DNA
<213>mankind are with reference to genome hg19
<400> 95
GCTCACACCC CTCAAATAAA CTTAATTCAT TTTAACATCA CTAGCAAAAA TCACTTAGAA 60
ACTGTACAAA AATAAAAAAG TTAACACATT TAATCCTGCA AGGTTTTTGT AAGGACTGGA 120
AGGCAGGCTT TTGAAGCAGC ATTTGGGCAT GGCTGGGGGC TTCTTTGGTT TGATCTAACA 180
CACATAAGAG ATGGAACCTA TTCCAGATGA CAGTTTCAAA TTTCCTGCAC ATTTGAAGAC 240
AAGATAAGAG GCCAGTATAC AAACTTCCGG TGTGCTGGGC ACTGGGACTG TATGTGCTGG 300
ACTGAAAATC TTACAACTGC TTTAAGCTTT AAGGGTGAGG GGAAGCAAGC CTTGCACTTC 360
CTCCATCAAT TTCACTGACC TCTCGTGTTA GGGGAGACTA CAGAGGGTAG TAGCACATTC 420
TCGTGCAGTC AGAAGGCCAC TTGAGGGGTG GGGGACAATT TGTTCTTTTA GAATCTGGTA 480
CCTGGCTGAC CTTGTTTAAG AACAAGAAAA CCCTTCCAGA AATGGAAGCC TTTTGCTACA 540
TACCAAAGCA AAGTACGTAC T 561
<210> 96
<211> 402
<212> DNA
<213>mankind are with reference to genome hg19
<400> 96
CACTTGTTTT TATACTGAAA GACTAATCTG CTCCAAAATG CTCCCAAGTA GAAATGACAG 60
GACTCAAAAT CCCTTTCTAA AGCCCAACAG CTAACTTTTT CTGACTAATC TCTAGCTTCA 120
TTGAAACTGG CTACCAAGAT TGCATTTCAG GCTAACAATT GGCTTCTTAG TTAAGGCATC 180
ACAACTGAAA ATGGTTATTT CAACAATGGA TGCTGTGGAT GAAGGAATAC CAACAAACTT 240
CTAAGAACTC TCATCAAAAA CTAAAGCAAT TTGCTTTGCC CCAGTGGCAG GCAGAAGGAA 300
TTTAGCCCAT TATCTCACAA ACTAGGAAAG GATTTTTGAA TTCTGAACTA GCAGTCTGTC 360
ACTTGTCACA GTAACTATAT GTATAAGCTG TATCATTTTG AT 402
<210> 97
<211> 516
<212> DNA
<213>mankind are with reference to genome hg19
<400> 97
CAGTCCCAAG GCAAAATCAC AGGCTAAGAA GAGGCACATG CCCAATGCCT AGACAGGGAG 60
GAAGGAAAAA GTACAAATAA AGATAATAAG AGGGAGAGAC AGAATTGCAC AGGAGAAAGG 120
ATGGATGTTT GTACTGTGGA AAGAGAGACT GATAACATAG AATATAAACT GAGAACAGAG 180
GAAACTAGAC AGAGAAAGAA AAGTCAAAGA GATACACAAG AGGTAGAGCG GCAAAAAGCC 240
ATTGATTCCC TCAGGTTATT GACCTAGTAA TGAGAAACGC TAATGCCTTC AAGTCTTTGC 300
CTTACTTACA AGGTGACTTC TGTTGTGCCA TCTGACCTCT CCCAACTAAC CTGCCCTTCT 360
GATCAGGAGC AGAAAGATGC CTTAATTACC AATTGGAATT CTATACTCCC CTAGTCTCAG 420
GCATCCAAGG TAAGAAAAAA TCACCTCTGA TTCCAGAAGA TGTTGAAGCC AATAAACCAA 480
GGGATAAAAA ATTAGTCTTG TCAGCTGGGC ATGGTG 516
<210> 98
<211> 403
<212> DNA
<213>mankind are with reference to genome hg19
<400> 98
ACACACACAC ACACACATGC ACCACCCCCT CCCACCACCA CCACACACAC ACACAGCAAG 60
CTCATTCCAT TTAGAGTGGA GGAACAACTG CAAGCCATTC AGTAGCCAAA CAGCAGCTTG 120
GCTTCGAATG CTGTGCCTTT CAAAATATCT GCACAATTAC AAAGAAATAA GGAAATCTTC 180
ATATCTGCTA AAAGCAAACA CAGAATTGGC ATGCATGACC TTCACTTAAA TTTAGTTGTC 240
TTTGCCATTA TGGGCTATGA TTACAGAAAA AAAAAAGCAG TGTTATAAAC CTGTATCTCA 300
AAAGACTGAA AACTATTTCA AATGATCAGT CCTTAGTAAA GAGAAATCCT TTCTAATGTT 360
AAAGACAAGT GAAAGATTTC TGTGTCTTCA GTATGAAATA TTA 403
<210> 99
<211> 480
<212> DNA
<213>mankind are with reference to genome hg19
<400> 99
ATCCCCTCTA CTCTTACTTC CCCCAAATTT AAAGAAGTAT GGGAAATGAG AGGCATTTCC 60
CCCACCCCAT TTCTCTCCTC ACACACAGAC TCATATTACT GGTAGGAACT TGAGAACTTT 120
ATTTCCAAGT TGTTCAAACA TTTACCAATC ATATTAATAC AATGATGCTA TTTGCAATTC 180
CTGCTCCTAG GGGAGGGGAG ATAAGAAACC CTCACTCTCT ACAGGTTTGG GTACAAGTGG 240
CAACCTGCTT CCATGGCCGT GTAGAAGCAT GGTGCCCTGG CTTCTCTGAG GAAGCTGGGG 300
TTCATGACAA TGGCAGATGT AAAGTTATTC TTGAAGTCAG ATTGAGGCTG GGAGACAGCC 360
GTAGTAGATG TTCTACTTTG TTCTGCTGTT CTCTAGAAAG AATATTTGGT TTTCCTGTAT 420
AGGAATGAGA TTAATTCCTT TCCAGGTATT TTATAATTCT GGGAAGCAAA ACCCATGCCT 480
<210> 100
<211> 571
<212> DNA
<213>mankind are with reference to genome hg19
<400> 100
CAGTTTTCCA GCCTACAAAG TGGGATTTAT TATTCCTGCT ACTGGCCTCA CCTTATTGGG 60
ACAGTATGGA GCCCTTCCGG AAATTACCCC CCGAGATGCT GAAATACCTC ACAAGAAGAA 120
TTCGGTAAGG CTATCATTCA AGACTCTAGG CTGGTAATAA TATTCAGGTT TATTCTCCCT 180
TTTGCATCTG TGGGATACCC AGAGTTAGAG AGAGGGGAAA CGTCTGCTAT TTTCTTCAGC 240
AGTTGTGTTT TATGGGAAGG GCTTGGTGTA AATAAATGCG TTGCCGATTT TGAGCACAGC 300
TTGAGTGCAG TTACTTCGAG TGAATGAAAA CTGGAAAGGG CTGGACTCAA AGGTTAGAAG 360
GAAAAGGCGC CAAAGGCTGT CCTTTTGAAA CCCTCTAAGA AATGGCTGTG GCTCCTGAGG 420
ATGAGGGTGG GGTGGACCAG GGAGGACTAG TGACTGGGAT ACAGGAGACC AAGGGGACAG 480
CTGTGCTGAT CGGTGGTTAC CCAGCCATGG TGGTTGCAAA TACCTCAGGG AAACTAACAG 540
CAACCAGAAC TGGAACAGGG GAGCTGGTGG G 571
<210> 101
<211> 413
<212> DNA
<213>mankind are with reference to genome hg19
<400> 101
GGCAGCCAAA CATCTATCTA GTATATTGCA AATTCTGTTC ACTATCCTCC CTTTCTGTGG 60
AGGACATAGG GAAATAGGAA TCATTCTGGC CCAAAGTTCC TCTGCATCAA ATGAAACACA 120
AGAGGAGACT CTACCAAAGC CAGAATGAGG CAGTTCTCCC TTTGCTCACC CATCCCCAGC 180
CCAGAAGGCA TATTGTTGCA TATTCCCCAG CTCAGAAGCT GACAATCATG CATTCAAATG 240
TATTTTGTCT CATTCAACCT CCTTGAAAGG ACCCTGGTTC CTGATGATAA AAACACAAAA 300
AGGGAACCTT TTGTTTAGTG CTGCTAGAAG CAAGAGGGAG GAGGTAGTTC CCTGATTAAT 360
ATTCTAGATT AATTGATCAT CAAAAAGAAG CAGTCAGACC TTGGCTTTCT TTA 413
<210> 102
<211> 523
<212> DNA
<213>mankind are with reference to genome hg19
<400> 102
CTGTTTTTCT TGCTTCAGTG TGCATTTTAA GTCAATAGAG CTGAGTATCT AGCATTGAGG 60
TGAGGGAAAT GCTGCCTATA CTCCCAGATG TGTTTAGAAT ATCTCAGAAA CAACACTGTG 120
TTTAGCTCGG CTTTCTCTGC TAAGTATGCC TTTCAAGTGT ACACCACGGA GACAGGACCG 180
CGTTGCAAGG CGGGACAGCA GGTTCAGACC ACAGTTCTCA GTCTGACTTT ACTCTTGCTA 240
GGTCTGTCCT ACTAGCTGTT GCCTGCTACC GCCCATGGCT CTCCATCGGA CTGCATGTGT 300
CCTTTTCTAG TTTGCAAAGA CTAAAATGCA TTCCCAAACC TACTGCTAAT CTGAGGGCCT 360
CAGCATCACT TCCAGATCCT TGCTTGGAGC AGTCTCTCTA TTGACTCTCT CAGATCGCTC 420
CACTGCTCCA TGGGCTATCA AGTAACTAAC TGCATACCTG CCGTTGGCAT CATCAGAACA 480
GTCCGAAGAA ATAGTCTCCA CTCACTAATT ACCTCCTATA TAA 523
<210> 103
<211> 474
<212> DNA
<213>mankind are with reference to genome hg19
<400> 103
CGGCAAGCAA TAGCTTATTA AATAGAAAAT GTAGCAAAGA AAAGTAACCT ATTTTACATG 60
ATCAACAAAA AAAGGAAAAT GACATCACAT TTTTCACAAG GACACAATTT TAATAGTAAC 120
TTATATTAAG ATGCAGTGTC TGCTAAATTA TAAAAATTGC TTTAAAAATA TATTGACTTA 180
ATTATACTCA TTTCCTTTCC TTTATGTATT GACATTTTTC AAATACTTCA TATTGAAATA 240
ATTTCAAAAC ATGATTATTA CAACATGTGG CAAATATCTT CACATCTGCC TTCATTCAAA 300
TTTTAAGCTA ATGCTTAATG CATTAAACTT TATTGATGAA AATACTACAT TCACATATTT 360
CTTAAAACCA GGGCTAGAAG GGTCCTTAGA AAATAATCAC TTACATGAAA TGCTGACAAA 420
TAATTTACAT ACCATTTCGA CACAGCATTC TGTTCACACC ATGTATAATC TTGA 474
<210> 104
<211> 433
<212> DNA
<213>mankind are with reference to genome hg19
<400> 104
GTAAGAAATA AAAATCTTTC TCTGCTCAGA ATTTAAAAAT AAATGTCAAT GCCACATTGT 60
TCATATCTCT CTACTTAAGC TATAGTTAAG AGGTTTAAGA AAGCAAAACA TTTTTTTCTC 120
CACAAAAAAT TTAAAATACT GGAGGTCACT GTGGAAGAAC AACATTGCCT TATATTTTTC 180
ATAGTTCTTC TTTAATTGGG AGGATTCACA TTTTACTTTA TTTTTAACTC TAATATGAAT 240
ATACACATCC TAGCTGAAAA ATTCAGTGGC ATTGTATTAA CAAGAAAACA AAATATATAA 300
GAGTAATCAC TTTTTTTTTC TGCAAAGTGC CTATCATGGT GAATCTCACA CCTCCCACAC 360
ACAAAGAAAG CATTAAAAAA AAAGAAAGAA AAAGAAATCA ACTACGATAT TCCACCACAG 420
TGCTCTTGAT GAA 433
<210> 105
<211> 442
<212> DNA
<213>mankind are with reference to genome hg19
<400> 105
CGGCCCAAGT GGTAAGTTGA AAAATGGCGG AGGGGGGAAG AAGGAGGGGC TTTGCAGGGC 60
AGGAGGCTGA CCTCCCGGCC GGGGGTGGGA GGGACACGCC GGGGCCCAGT GGCGCAGCCC 120
GGGCTGGGAG ACTGACGGAC CGCGCCCGGT GTCTCTTTGA GGCCCTGACG TGGACACACT 180
TCGGGTTTCA CGACTCCGGG TTTCTCCAGG GGATGGGCCG GCCGGTAGAG GCGCGTGAGG 240
GAGACGAAGG GACTTCCGTT TCCTTCACCT AGGCTGGGGC CAAGCCGCAG AGCGGAGTTG 300
GCATTTCCAG ATTGGGGCTC GGGCCGCGCC TCCTCCGGGA CCCTCCCCTT GGACCGAGCC 360
GATCGCCGCG GGGCAGTTCG GGCCGGCTGT CCTGGCGCGG TGGGTACAGC TTGTGTAGGC 420
TTTCCCCTCC CCCGCTTTCC CT 442
<210> 106
<211> 405
<212> DNA
<213>mankind are with reference to genome hg19
<400> 106
GCTAAAAAGA TCATGATACA ATTATTTTAT TAAGTCATGG TTAATAACAA ATGAATCCAG 60
ACTTGTCTAA CAGATTTTCC ATCAACAAAT ATTGTTATGT GCAAAAGTAT TGCCTATGTT 120
GTTTTACACA CCACTGCATT AACTAGAACT GCTGAGAGGA CTGTATATAT GATTTTAAAC 180
CTAAGTTGAT TTTTTTTCTC ACTCTTGAAA GGAGTACTTC TTTGTGAAAG CAGTTCTTAC 240
AGCTTTGTTT TCAACCAGCT AAAAATGTTT TATATATTAC TCTAACCTGT TGTCCTCCAC 300
ATTCTATTGT CCTAATTGTA CTGTTTTCTG ATTTGTATTT ATGTCTTGAG ACAGTAACTT 360
TTTGAATAAA AATAAACCTA CAGTATGTTG TATGTTTTCT CTTGT 405
<210> 107
<211> 415
<212> DNA
<213>mankind are with reference to genome hg19
<400> 107
ATAATGAATA CTTTATAAAG GATTAATGTC AATTCTTGCC AAATATAAAT AAAAATAATC 60
CTCAGTTTTT GTGAAAAGCT CCATTTTTAG TGAAATATTA TTTTATAGCT ACTAATTTTA 120
AAATGTCTTG CTTGATTGTA TGGTGGGAAG TTGGCTGGTG TCCCTTGTCT TTGCCAAGTT 180
CTCCACTAGC TATGGTGTCA TAGGCTCTTT TGGGATTTTT GAAGCTGTAT ACTGTGTGCT 240
AAAACAAGCA CTAAACAAAG AGTGAAGGAT TTATGTTTAA TTCTGAAAGC AACCTTCTTG 300
CCTAGTGTTC TGATATTGGA CAGTAAAATC CACAGACCAA CCTGGAGTTG AAAATCTTAT 360
AATTTAAAAT ATGCTCTAAA CATGTTTATC GTATTTGATG CTACAGGATT TGAAA 415
<210> 108
<211> 404
<212> DNA
<213>mankind are with reference to genome hg19
<400> 108
AAAAAAAAAT GGTTGTTTCA ACTTTCAGGT TAATTCTGAA AATGCAATGA AGCAGAACCC 60
CTGCACTCCT AAAGTGTTCC GACCAATTAG GAGTTTGATA CAAGCACAAG ATTCTATGAT 120
AACTTATTTT GAAAGAGAAT AAACTTCAAA AAAGCACTTT AGCACCAACA ACGTAAAAAC 180
TATATACACT AAGATCACAA TTTGTAAATT AAGTGTTTCC AAACGTAGGT AATCTAGAAC 240
TTGGAATGTA CTTTTCCAAT TGAACAATGC TATAAAACTA TGGTAAGCTC TCCAGAAAAG 300
ATGTAGGAAC ACCTTGCTTA CTAGAAAATT TTCTCTTCGT ATCTGCAATG AAAAATAACT 360
GAAAACAATG CTGTTGTAAT ATTGGTAACG AGGAAAAACA AGGA 404
<210> 109
<211> 465
<212> DNA
<213>mankind are with reference to genome hg19
<400> 109
CTCACAACAA CCCTGTGAGG TAGGCATTAT TATTAAACCA ATTTTGCAGA TCAGGAAGCT 60
GAGGCACAGA GAGAAGCATT ACACAGTAGA TCAGATAGAT ACTGTTATCC CATTTTTAGA 120
GTAGAGGAAG CCAAAGCACA GAAAAGTGAA GTGACTTGCT CAAGACCACA CAGGGAGGCA 180
GTGTCAGAAA TAGAACTAGA AACCAGTATT ACTGCTTCTA AGTCTAGGGT ACTTTCTGTA 240
GCACCACAGC TTTCCCCAAG CCTATTTAGC TGGATAGAGA GACTAAAGCA AATGTGGCCA 300
ATTCCATCTA GAAACCTCCA GGCCATGGGG TGGGGGAGTT CGGGCTGGGA CATGTCTGGC 360
ATTTTACATT TTGGGGAAAT TTCTTCTATA TTTAGAGATT GGTGCTGCCT TACTAGCTCT 420
ACTGATAGGG AACCAAGGTG ATTTATAAAG CCATTTCTAA AATAT 465
<210> 110
<211> 562
<212> DNA
<213>mankind are with reference to genome hg19
<400> 110
CAAAACACAT CACAAACTGC ACTTGAAGAA AAGGGATATT CCATCCATAC AGGTAAAATG 60
TGATCTTTAG TTTCTTTTTA CAACACTGCC ACACGTAAAC AAAGTCTCAA AGTATTAACC 120
AATAATTTTA AAGGAGAAAG ATTTTACAAA TAGGATGAAG CACTGGTACG AGGTAATATA 180
CAGAAGTAAC CATTTGTTTA AGGCTCAATT TTTTCTCCAT TATAACTTTC TTTTAAAAGG 240
CATTGAGTAG GTAATACTGA GTTTGAGTAT TTAATAAATA CAAGTCGAGA AACTGATTAA 300
AGAAATCAAT TAAAATATTA AAAATTAACC CTTGTATATT AGCCATCAAT AAGAACTTAG 360
AAAGCTATAA AAGGACTGAT TGATAAAGAA TGGATTTTAA ACGTATGGTA AACGTGCTAA 420
GCATTCCTGT TTAAGGTCGA TGGATCTTGA AGGCCAAAGA CCTTATGCAC TTAAATAGAT 480
GTATGGCAAC ATGCTGTAAT AGAGACAGGT TTACCAAGGC TCAGTTCTGC AACCCAGGTT 540
GTAAAGTTCT CCAAAGCAGC AT 562
<210> 111
<211> 731
<212> DNA
<213>mankind are with reference to genome hg19
<400> 111
GCCATTTTCC ACCCAAATTA TGTGCCTCCA TTTTTCACAT TATTCCAAAT TGTTGTTATA 60
TGAATGCACA AAGTTAGTCC TTTAAAAAAG AATATATTTA GGAAAATCCT TCAAAAGTTT 120
TTTAATTTAA ATCATTGTAA TTTGGGAGCA TGGGGACAAA TGGCTCATTT TCTGTTAAAG 180
CAGCAACAAT AATATTAAAA TATTATTAAT ATTATAATAT TAAAATAATA TTAAAATATT 240
AATAAATAAG TTTATTTTGA AAAGGGCATT CATTCCCATA ATCCAGTGAT ATGATGGTCA 300
TATCATTCTC TCAACTGCTA GACACAAAAG ACATAGCAAC AAAGTAATTT GTTTCCATCA 360
CTAACAAATA GCATCTCTAC ACAGAAATAA AGCTCTGGAA CCATGCAGTT TTATGACAGA 420
TAAATCTTTA GGTTGTGTGT TTTCAGAGAA AAAAGCACTG CTTAATAGTT AGGTTACTTT 480
TAGGTCTTGT TACAGAGGTA TTTTTTAAAA AACTAATATG ATGTAGATGC CTAGCAAGGA 540
TTTTGCAATA TCTGCAAAGA GCTGCGACTT ATTTCATAGT CATACATTTT TTTTACATAT 600
ACCATAATTG TGGATGGATT CTATTTAAAG ATAAAATTTC TCTTCAATAA TCCAGCTTTT 660
GAGTATTAGT GATTCTCTTA CAGGCAAGAA CAAGTAGAAG AGCTGGAAAC TGCACAAATT 720
AGTCAAACTA A 731
<210> 112
<211> 539
<212> DNA
<213>mankind are with reference to genome hg19
<400> 112
ATGATGAATT TCAAAAAGGC ATACACTACT TTCTTCTATA GCAATGTTAA GATTTCAGAA 60
ATAGAAATTA ACTGGTTCAA AGAGTCCATA GGTAAAGGTC AGGACAACTC TTGATCTCTA 120
ATTCCACGCA ACATTGTCAA CAGCTGACAA TGACTCAATA CAAGCAAGGC TGTTTAGAAA 180
GCACTGTTGA TCAGGATTTG GATGGATAAT TAAGATCAAC AGAGTATCAA TTCCCAGAAA 240
GCTAATTTTG CTCTCTTATA TTCTGAGCCA AATGGGTCTG CTTTGGAAGA GAGCATCAAA 300
TGTTCTGAAG CAAAAACAAT GTGAAAAGGA GGAACAATGG GAAGCAGGAG ATATTTCTGG 360
GTCCCACAAT GGCTAAGGTA GCCTTGGGCA AGTCATATGC CCCTGGATTC AGTTCCATCA 420
ACTATAAAAA GGATTTTGCT AATTCCATTG TTCTGTGATT CAAACACTTC TAGCCAGCTT 480
AAGGTATCCT CAATCAGATT TGCTTTTTAC TTGTCATTTT CATGAAGGAG AAAAACCAT 539
<210> 113
<211> 409
<212> DNA
<213>mankind are with reference to genome hg19
<400> 113
GTCTTTGGCC TGGGACAACA GATATGGCCA TGGCCTTTGC CACTTCACCC ACGTGGCTAA 60
AGGTCACCAC TAAGATGTAG TATTCTCAGC TCTACCTACT CCCACCCCAC CCCATCCCCC 120
AAGAAAAACA ACACATACAA AAATCTGGAC ACCTAGTTCT CCCCTAAGTG GGCTCCTTGG 180
CTGATATCTT GGATCGTAGC ACATTGCTGT GAACCATGGC AAGTCCTTTG TTTTACTGAT 240
AAGAGGGGGC TAGGTAAGAA AAAGACTCAA ATGAGACACC TTATACTCTC TTAAAACAAA 300
AACTGGGATC CCAAAACAAA TGGAGATACA CATGCACAGA CAAAAACTTT GCCCGAGTGT 360
TGACAGCTAT TCCCTGAGCC CAGGCTGTAC CCCAGTTCTG GCTAGCTCT 409
<210> 114
<211> 481
<212> DNA
<213>mankind are with reference to genome hg19
<400> 114
CATAAGTGCT AGAGGCATAA CACATGTACA AAGATGGTTA AAAATGCAAA TGAAATATAA 60
CAACACATAA ATCTCTATGG CCAGGGCTGA CATCATTCAG CCTTTAAATG GCTACTCATT 120
GAGTAAAGAC ACTATGCTAG CTAATTTAAA AATTAATTTA GATCTTGTAA GCACTTAAAA 180
AACCAGAATG CATTAATATG AATCTTGCAA ACAATAGAGG TTCCATTGTG ATCACTTACA 240
CTCTATTTCC TGGTATAAAT TAGAGTAGGA ATGGAGAGGA ATATTACAAA TCCACATCTT 300
TAAAAAAATC AACAATCACA ACTCATTTGG GTAAAAGGAC AATTTCTGCT TTTGTCAGTT 360
CCCTTTAGAA AGTTAACCTG TTGGTTATCA GAGAAGGGGG ACACTGAACA CACAGAAAAC 420
TAACCTTCTT CTGGCAGCTG GGGATAATTT GTCAGTTTCC TTTGAAATGT GGCTTTGTGC 480
T 481
<210> 115
<211> 415
<212> DNA
<213>mankind are with reference to genome hg19
<400> 115
TTGTCACAAG AAATGTTAGT GATCAAAAGC TTTTACTGTT GCAATAAGAG AGATATCTTT 60
TTATTTTACA GATATTTGTG TCGTCACTGT CTTCTCAAAT CATGTGTAAG AGTTTGGAGA 120
TGTCATGGCG GCACAAAAGA GAGCTGTTTT CTCTATTTTA TTCCTTTAAC TGCCATGGTT 180
ATTTTTATAA AACACATCTA TGTTTCTCTT ATTAAAAGTA ACCTTAATTT CATTGGAATT 240
TAAGAATAAA TAGATCTGGA TTCATATATT ACATCAACTT CCCTTTTTAA CTCTAGAAAT 300
TCTCAGTATG GGGTTTCCCT CTGGAAAAAG AAAATCTGAA GACATTACAG TTGCCTATTG 360
CCTCTTAAAT GTGTCCTAGA CACAGCATGA AGTTGGGGCA CTGGTGGTGA GAGGC 415
<210> 116
<211> 882
<212> DNA
<213>mankind are with reference to genome hg19
<400> 116
CTGGGAGGAG AAATTGGGGT GTGTTACTGT TTACCATGGC AGTAATGGGG CAAACAATAA 60
AATGCAATGT GAAATGATTT GATGATTTGG GAAATAAGAT TGAACGCAAT TTACTTGTTT 120
GAATTTGCTG TTACTTGCTC TTCTTATCCC ACTCTCTTCT GATTTTTTTT TACTTTCTGC 180
TCCTTACTTC TCTGCTATTT TCATTGCCAC TTTTTAATGT TCCATGTTTG GTTTTATGTG 240
CAGCACCTTG ACTTCTAAGA AATGAATCAT GTCCCTTTGC CCCTTATAAC TGAACTTTGA 300
GTATTTTAAG ATTTATTCTA TTCTTACTGT TGTGTATTTT GTTTCCTTAT AGCCATTAAA 360
GAAAGCACTA AGGATGATGG GAGCTCCAAA TCTGATATCA GATAATTTAG ATTGTGGACT 420
TAGTTACAGT GTTATCTCTT ACCTTAAAAA ACTCAGCCAA CAGGTAGTAT TGGTAAAAAC 480
AAACAAACAA AAATCCTTTG CCCTCAGAAG TGCATTTCCT TATTCTTTAG TGTAATTGTA 540
ATTTTTCAAA TTAAATGTGT ATATATCTCT ACACTTTATG GATTAGTAAT AATGTGATTC 600
TCTATGGCTT CTAGCTTCAC CATTAAGCTG CAGTTAAGGG TCTGTCAGTA TCATTTGATG 660
CTGTGCCATT TCTCCTTTTG CCTGCCAGTT TGTCCTACCC GCAAGCTGGT TGATATGGGG 720
CAGAGGTTTA ATAGACTTCT CTCATGGGTC ACATTTTGTC TATCTTCAAC CTAGTTCCTC 780
CTCAGATCAC TCTGGGCTAC AGCATCCCTC CTGTTTAGAT CAGCACACTG AGGCGTGGTG 840
TGATTAAATG ACTTGTCTGA GATTAGTTTT CAGGCATGTG AA 882
<210> 117
<211> 410
<212> DNA
<213>mankind are with reference to genome hg19
<400> 117
TAGTGATAAT AAACATAGAC TTAATTCCAA TAATTAGGGA AAATTGATAA ATATCTGTCA 60
CCAAACCACA AGAAATCCAA AATCATTTTA GGTTTACCAA ACATTGGTGG AATTCCATCT 120
TTCTGAGAAA AAGGGAAGAT CATAGCTAAT TTATAATAGC TCAAATTACT AATTTAATAA 180
CTGGGTCACC AGTGTTTCTT GAGCCATTTC AGATGTATGT AAAACACAAA ATATGCCAAA 240
TATATATTGC TATAATACAC TCAAGCAGTA TTAATCAATA TGGTATCACA ATGCCTATTA 300
AGAGGCTTTT TACAAATTAC TTACTTAGTA ATATCTGTTA AATTAAGCAT TATCTTCTAA 360
GACCTTTTTT GGATAGTCAA ATATAAGAGA TAAATAGTTT AATTTTTTCA 410
<210> 118
<211> 442
<212> DNA
<213>mankind are with reference to genome hg19
<400> 118
CAGTAGCCCT GAACAAAATT TACTCATGCC CCGAAAAGAA TTTCTGGGCT TTGTATTGTT 60
TCACACAAGT TAAAACAATG GGCACAAAAG CTGTGGTTTC AACAAAAGCA TATTAAATCA 120
TAATGTTGTG CTTTACTTGA CCTTAGCCAT TTTGCAGCCG TAATTTTGAC TTAATTCATT 180
AATAAACTAA ATAATCCAAG GCACACCGAT TGCATTTGGT TACAAAGTAG AGAAGAAATA 240
ATTTTCAAGT CCAAAAGTAT TCTGAGATGA GAATCTTTCA AGCACAATAT CTGACACATT 300
AAATACATGA TTTTAAAAAG ACAGCGTACC ATAATTAAAA GCTTTATTAA ATGAAAGAAA 360
AGAAGTATGT GCTGTGGTTT CTTTGCGTGT CCATTAACCT GAAAACAACA TCTGCATCAT 420
TTGAGCTCAA TGTCTTTTGC GC 442
<210> 119
<211> 448
<212> DNA
<213>mankind are with reference to genome hg19
<400> 119
CCTGTGCCTC TCACCTGTCC CAGCAGCTGT GTCTGCACCT CTCAGAGCTC AGACAATGGT 60
CTGAATGTAA ACTGCCAAGA AAGGAAGTTC ACTAATATCT CTGACCTGCA GCCCAAACCG 120
ACCAGTCCAA AGAAACTCTA CCTAACAGGG AACTATCTTC AAACTGTCTA TAAGAATGAC 180
CTCTTAGAAT ACAGTTCTTT GGACTTACTG CACTTAGGAA ACAACAGGAT TGCAGTCATT 240
CAGGAAGGTG CCTTTACAAA CCTGACCAGT TTACGCAGAC TTTATCTGAA TGGCAATTAC 300
CTTGAAGTGC TGTACCCTTC TATGTTTGAT GGACTGCAGA GCTTGCAATA TCTCTATTTA 360
GAGTATAATG TCATTAAGGA AATTAAGCCT CTGACCTTTG ATGCTTTGAT TAACCTACAG 420
CTACTGTTTC TGAACAACAA CCTTCTTC 448
<210> 120
<211> 470
<212> DNA
<213>mankind are with reference to genome hg19
<400> 120
AAGTGCATCA CAGGTTCAGG GAACAACACA GGTTGAGTGT GGCTTGTAGT AAAAATGGTT 60
GTGAAGAGTT GACATATTTT TAAGCCCTGG GTAAATTGAA CAACAGCTTA CACTTGGAGG 120
GGTATAATCA TTCTAATCAA TGTGTCCCCT TTTACTATAA TACATTGGAG TTGCAGCTAA 180
TGCTCTGCTC CCATTCAGCC TATGATGAGA TTCTCTTTCA GCCCTATTGG GTTCTTGGCC 240
TCATGTGACT ACTCCAAAGA CCCTAGTCCA AAAGGTCTTT CCTGTTTGCT ATGGCCTTGA 300
GGAATGTGGC CCTAGATCCA CCGCTTTAAA GCTGGAGTTC CACCAGCAGC AACATCCTCT 360
CATTCTGGGG CACCTGCCTG GGGCAGGTCA TCCTGCCTCT GCCAACTCAG TGCTATTAGT 420
TAACTCTCAC CTGCCATATT CCAGCTGGAA TCATCTCCCC TTCTCCACCC 470
<210> 121
<211> 485
<212> DNA
<213>mankind are with reference to genome hg19
<400> 121
CTAAAGTACT GAGCAGTGAT ATTCTTTGTT AATTTGGACC ATTTTCCTGC ATTGGGTGAT 60
CATTCACCAG TACATTCTCA GTTTTTCTTA ATATATAGCA TTTATGGTAA TCATATTAGA 120
CTTCTGTTTT CAATCTCGTA TAGAAGTCTT CATGAAATGC TATGTCATTT CATGTCCTGT 180
GTCAGTTTAT GTTTTGGTCC ACTTTTCCAG TATTTTAGTG GACCCTGAAA TGTGTGTGAT 240
GTGACATTTG TCATTTTCAT TAGCAAAAAA AGTTGTATGA TCTGTGCCTT TTTTATATCT 300
TGGCAGGTAG GAATATTATA TTTGGATGCA GAGTTCAGGG AAGATAAGTT GGAAACACTA 360
AATGTTAAAG ATGTAGCAAA CCCTGTCAAA CATTAGTACT TTATAGAAGA ATGCATGCTT 420
TCCATATTTT TTTCCTTACA TAAACATCAG GTTAGGCAGT ATAAAGAATA GGACTTGTTT 480
TTGTT 485
<210> 122
<211> 515
<212> DNA
<213>mankind are with reference to genome hg19
<400> 122
CGTGGTAAAA TATTCATGTA TTTGTGCTGC ATTTCTAATT TTTCCGTAAC TGACACATCA 60
GTTTTATAAT TAGGAAAAAA ATACCTTTTT AAAGTAAAGC GAACACAAGA TTCTTTAGCA 120
ATGTTCATTC CATCCCACAA TAGAGTCTAG AGAGTCACAA AAACCTCAGC CTCCTTCGGG 180
AGGGGGGGAG CTTGGTAGTG AAAAATGGTC ATGAATGAAT GGGTGAAGAG AGGGATGGGA 240
CAACCTAGTA GGAGGGAGGT AGGGATAGGC AAGGGAAAGG TGGGGACCAG TAGTCATACT 300
GGTCAGCCAA GGAAAGGGGC ATTGTGGAGT CAGGGAAGAC TCTGACTGCT CAACAGAGGT 360
CTGTCTAGAC CCAGTAGTAG GCACTGACGG TGTTATCAAA GGACAGGATC AAAGAGAGAT 420
TTTAGGAAGA CACGTGGATT ATTTTAGGGA CAGGGGAGGA AAGAGGAGGG GTGGGTAAAC 480
TACTTGGAAA GAAAGGGAGA AGGACTGAGA AGATG 515
<210> 123
<211> 517
<212> DNA
<213>mankind are with reference to genome hg19
<400> 123
CTGTAAATAT TCCATCCCTT TTGAGATTAT ATACACTAAG CTTTTTACTA CCACTGGCCT 60
TTCTGGATAC TTTCATATTT AGAGAATATA GAACTACATT CTGGGAGATT GACAATGACC 120
TAATATTACA CTAATGAAAA GTCTTCACAG TCCTCAAAAT AATTTAGAAT TTAATGTTTT 180
CTTTAATAAG CAATTAAAAT GGAATATTTT CTGCCTCCTG AATAAATACA TGTCTGTAAC 240
CAACCATCCC TAAAGAAGGA TACTAATATA TTTTGAGTGA TTCAATCCAC CCATGGATAT 300
AGTCACATCT TTAAATGTTT TCCAGTGTGA ACAACAGTCT TTTAATAGAT GGCCATTGAG 360
TTCAAGGGTC ATATTATTTG CTAACAAATT ATTATTTGGG CCAGAAAGTA TCTGAAAAAA 420
GTTTAACCAA ATTTCCTACA CATCTCATAT CTCTAGTTTA TTAAGCATTA TTTATTATTT 480
GGTGTAAAAA TTCTACATTA ATTACTTCAT ACATATT 517
<210> 124
<211> 442
<212> DNA
<213>mankind are with reference to genome hg19
<400> 124
CTGCGACCCC CGCGCGCAGC CACCTGCCAA GACCGCGGCC ACCCACGCGG CCGCAGACGC 60
AGCCCAGCCC TCGGCGCCGC GGAGCAGGGG GACCTGGCAG CCTGGGCCGC CCGCGTCCCG 120
AGCTGCGTGG ACCGAGCGCG TGCGGGCAGG GGGCGCGCCA GGCGTGACAG GTGTGCTGCG 180
GACGCGCAAG GCTGCGGCGG CCGCGGGCCG GATCCGGTGC GCCCCCGCCC CGCGCGTCCC 240
CGCGCCCCGG AGCAGGTGCA GACCTGGAGC GGGTGCCGCA GCGTCGTGCC GCGCAGTGGC 300
CGCAGCGCCA AGCCCCCCGC CCGCGCCCCG CCGGCCCCGC CCCCTCCGCG CACGCCCCCG 360
CCAGCCGCCC AAGCACGCAG TGGCCCAGCG CGGCCGCGGC GCCGCAGGGC ACCTTGTAAG 420
GCAATCGCCG GGATCCGGCT CG 442
<210> 125
<211> 458
<212> DNA
<213>mankind are with reference to genome hg19
<400> 125
CGGCTTGCTG GCTTGGAGTG GGACTCCTGG GCTCCACTGC TTTGGGTGGC TTCTGGCTGA 60
TCTGGGCAGG GGTCATCTGT TCAGCTCTCC CCTCTCATCT CAGTCACCAT CCCCCTCCCT 120
CCGAATGCTT TTGTTTGTAA AGAAAAAGTG TCTAGAAATA TTTGTCTCTG GAACAATTAC 180
TTTAAACATA GTTACAATAC AGACTTCAGT TCAAACACAG AAGAGATTTA CTTAGCAAAA 240
TTCCTTTCAC CCACCAAAAA TTACACAAAT ATAAGCCTCA ACACCACAGT TAAGAGGACC 300
AGTAGAGAGA ACCTCATGTT TGGAACACAA AAGGAGAAAT AAAAACCAAA CCAAACCCAA 360
ACAGAAAAAC CCCAGAAAGA CAAGTAAAGG GCAAAGAAGG AAGGGGAAGG GGAGCAAACA 420
CAGCACACGT TACAGTGTCC AGATACACGG GAGCCCAG 458
<210> 126
<211> 420
<212> DNA
<213>mankind are with reference to genome hg19
<400> 126
GAAAAGAAAG GATGCTGAGG GCTGGCCTGG GCCACTGCAC AGCCAGGAAC AAAGCAGGGG 60
TGAAGTAAGT CAGGCTGGGG GTCTAGCTGC ATGGATGAGG CCAACCTGAG CAAAGGCAGT 120
GTGGCAGGGG GTAGTGTGGC AGGGGGTGCA GCCTGTCTCC CGATTTTGAT GGGGGTTGGT 180
TGGGAGGACT GGAGCAGGAT GGCTTCTATT ATGGGTTGAA TTCTGTCCCC TCAAGGTATG 240
CTGAAGTTCT AATCTGTGGT ACTTCAGAAT GTGATGTTTG CAAATAGGGC CTTTGCAGTT 300
CAGATGGGGT CATACTGGAG TAGGTTGGGT CCTTAATGCA ACATGACTGA TGTCCTTATA 360
AGAACAGAAG TGACAAAGAC ACACAGAGGG AAGACAGCCA TGGTACAGTG GAGGAAGAGA 420
<210> 127
<211> 575
<212> DNA
<213>mankind are with reference to genome hg19
<400> 127
CGGCTTCTTT GAAAATCAAA ATGACTTCTT GTATGGTCTG AAAAAAGAAG ACTTTGGCAT 60
TCACTTACCT GTGGGGTGAT TGGAAACCCT GAAATCCTGT AGCAAAGTCT ACAACTGCCC 120
CAACTGCACT GACTATCATG GGCCTGACTG CCAATTTGAT CTATCCTCAT AAAGAAGACA 180
CAATCTCAGT CAGAATGCAG GACCAGTATC TGCTTAGTTT CCAGCTGTAG GTGCTCAGAA 240
GGATCAAGAA TGGACACTAA ATAACACTTC ATGCCCAACT GACACCTTCA TTCTGGGTCT 300
CCTGGACCCC AGGACCTGTA AAGGAAGGGG TGACATGACG CCTTCATTAT AAAGTGGGAG 360
TGTTTGTACT CTCAGTACCT AGTCACTTCT AAAGCAGAAG GGAGCAATTG GCTGGGAAAC 420
CTAAGAATGG AATTCATAGG TTTTTTCCTG GTCATTGTGT CTGCTAGCTC ACAGGGAAAC 480
ACACTGTATA GGTGACCATG AGAATGGCCT TCAGACTAAC CATCAGTAGG TATTTCTAAT 540
TGTAACTACT GATGGGAGAG TTCCAGTTGA ACATC 575
<210> 128
<211> 422
<212> DNA
<213>mankind are with reference to genome hg19
<400> 128
GTGCATTGAC TTTAATACAG GGGTTCCTCC CGTGGGCTCC TGAAGAGCTG ATGCTAGAAA 60
GTGATGCACA CCAGGAAATC CCTCCATCTG CCCAGGACAC ATTTAATTTT TAAGGGGCAA 120
AGCCTAACAT AGAAAATTCC TATTATCATT TTCCCTAAAT GAAGTTACAT CTCTCAAACT 180
ACCAAATCTA GGAATATTGA AACTTAGAAA TGAAGATAGC GGAAAATATT TTAAAAACAG 240
ATCTACAGAC TATGGTCAGG ATTTCTTGGA AATATATTTA AGGTTTCCTT TTCATGACTT 300
GGAAAGAAGA GTACTTTGGT TTAGTTTCAG CTCATGTTGT TAAAAGTTGG ACTATTTTCT 360
ATTACTCATA TAAATTGTCT AATCAGTAAA ATATGCTCCA GATATTGTAG CTTGAAACAC 420
AA 422
<210> 129
<211> 543
<212> DNA
<213>mankind are with reference to genome hg19
<400> 129
TTAGGGATTC TTGAACCCCA TCTATAATTC TCAGTTTAAG AATGCTAGTT TTGGAGATAA 60
GAATGTGCCC CTCATAATGA CTAAATAACA TAATTATATC TATGTGTAAG GAAGCAGAAA 120
CAGACTTTAC TGTAGTAGTT ATTGTATTCT CTCCATTTTG CAGATTGTCC AAATGATTTG 180
CCTTTTGACT CCAAGATTGT ATTGATCTGA TCCTGAAACA TGCTTTGTTC CATGCTTGAT 240
CAGGATAATA AACAACTGAG AGTTTTATTT TAAACGTATG AGGCTTAACC TGAAATGTTA 300
ACATCATAAA TATCTTTTTC AAAGTTTCAT CACATAGTTT TTCTACAACA GAGGAAGTGG 360
TGACTCTGAG AGGCCTAACT TTTCAGGGAA GAATGCTTTC ATGCAGGTTT CTCCTCACTT 420
CTTTTTGCCT AGTTATATTG GAAGGAAGGA GTAATCTGGG AGCAGCTGCA GAAAATAGGT 480
AAGAGTTAAG TTAAATTGGA TGCACCCTCC TGGCCCCCCA CCAAAGAAAT GCAGGACTGA 540
TGA 543
<210> 130
<211> 599
<212> DNA
<213>mankind are with reference to genome hg19
<400> 130
TTTTGCCCCC TTGTGAAAAA TCAGTTTGTT GTAGTTGTCC ACGTCCGTTT CTGTACTTTT 60
TATTCTGTTC TGTTGGTCTG TGTGTCTATC TCTTCTTCAG TATGACACAC TGTCTTGACT 120
ACTGTAGCAT TATAGTAAAT CTTAAATCAG GTAGTGTGAT TTCCCCAACT CTGTTCTTTT 180
TCAGATTCAT TTTGGTGATT CCAGTTCCTT TGCCTTTCCA TATAAATCTT AGAACCGGCT 240
TATTTATGTA TCTATAAGAA ATCCTACTGG GATTTGTGAT TTGGGATTGC AGTAAATCTA 300
TGGATAATTT GGAGAGAACT GGGCATCATT TCTGTGTTGA GTATTCCATT CCATGTACAT 360
GATGTGTCTC TCCATTTATT TAGGTTGTCT TTGAGTTCTT TCTTCAGCAT TTTGTAGTTC 420
TCAGTATACA GATCCTGTAT GTTTTATTTG ATTTGTACCT AATATTTAAT TATTTTTTGC 480
ACCCATTGTT GTAAATCATT TAAACATTTT TCATTTCCAG TTCAAATTGC TAGCATATAG 540
AAATTCAGTT GGTTTTGTGT GAATTTGTGT CCTGTGACCC TGCTAAACTC ACTTTTTTA 599
<210> 131
<211> 458
<212> DNA
<213>mankind are with reference to genome hg19
<400> 131
AAAGACTTTA AAGCCCCTCT ACGTGGAATT TTCTTCTGAG ACAAGCAGTA TATGCCCTTA 60
CAATTGCTGG AAAATAATTA CACTAAAAAT ACTCTTCCCA AACATAGGAT GAATCAACTG 120
TATTTTTATA ATATCCATTT CATTAGGCTT GGAAGATATA AATAGCTTTA CATGGAAAAA 180
AAACCTTGAA TTCAATCAAC TCTTTTTGAA TACTGTAAAC CAACGTTAGG CTAGAGGAGC 240
CGACGGCGCA GCCTGGCTCT ATCATTCGCA GAAGAAACCC TTGATAAATG ATTAAACTCC 300
TTGAGCTTTT TTTATTACTC ATATATAAAA TGGGAATCAT ACCTACCTCA AAGCATTGAC 360
AGGAGGATTA AATGTGATAA AGTATATAAA GTACATACAA TAGTGCCTGG AAAGGACTCC 420
AATACATGGT AGCTATTATT CCCAAGACTT TTTTTTTT 458
<210> 132
<211> 519
<212> DNA
<213>mankind are with reference to genome hg19
<400> 132
AGACTGTTTA CTTCCAGATT GCAGGTGCCA AGGCATTGAA ACCCCAGGCA TGGTCAAAGG 60
AAAAAGGGGG TATGGCATTT GGGTTATAGT GTCTCTTTCC TAGTTATAGG GTAATTTGCA 120
TGGGACAATT TGTTTCATAC AGCTGGTAAT TCTATCACAA GGGTGTTCAT TTTCTGAAAT 180
GTGCTAATAA CTGTGTCGAT TGCCTTCCTT TCCATAGTCA CATCATTTTT ACTTGAACAC 240
CAGACCTTTT GGTCTGTGTT CCTCATTTTA CAGAAAGCTG TTAAAAGCTA ATTGGTACCT 300
TTTAACCAAA CCCAGCAAAC ACCTTTGGTG CAGGGTATTC TCACGGAATA AGTAGAGCTC 360
ATAATCTTTG TTTAGTTATG CTAATTGTCC CCATTGTGAA ACTTTTTTCC CCTTTATGTA 420
TTTCTTTATG TTCATGGCCT ATAAGTGAGC TCAAATACCA AGGAACAGTT GTCCTGTCTG 480
TAGGTATGTT TTCCTGGGAC TTAGCTTCCT AAACCCCAG 519
<210> 133
<211> 553
<212> DNA
<213>mankind are with reference to genome hg19
<400> 133
CGTATAGTAA TGTAACATTT TAACTTTTGT AGAAAGTTTT GTAATTATCT AAGGACTGTT 60
TACCTTATCC TTTTATGGAC AACAAGAAGA CCTTTTGGTC AGCCACAGTT TTTATTTTCC 120
TTTTCATTTC TATGAATAAA AGATTCAGTT GACTTTGTTT CTTATATTGT TTTTTAAAAT 180
TATGTTTTAT TTAATGAGTG CTTCTTCATT TAAAAATAAT ATAATCTGGT CACAAAGGCT 240
ACATTCTCAT CTCTGACCAT GAGGTGGTCA TAGTTCTAGG CGTCAAATGC TGTTCTATGA 300
CCAATTGATC TTGAGCTCTT CCTAGAGCTG ATTTTAAAAA TCATTCTTTA AGAATTTGCC 360
TCTCTGATAT GCTCACTCTC TGTATTTATT ATTTATATCA GAAATAAACT CATGTATATA 420
TTAAACTAAC AAAAATGTGA AATTATTTTA GCGATTTATA TGGAAATGTT TCTAAGGAGC 480
AGGGTGAGAT TGTACCTCTA CTTATGACAT TTATAACTGC AGACATCTGT TTAGCTTATA 540
TGTATGCATT CCA 553
<210> 134
<211> 540
<212> DNA
<213>mankind are with reference to genome hg19
<400> 134
TAGTGGACTG AGTCAGACCT GGAGCCAGTC TCTTCTCTCA AGAGGTGTGA CGCAGAAAAT 60
TCTAGATGCT TAAGTGCAGC TCTTGAAATC GTTTTCCTTC TTCCTCGTGA TCTAACATTT 120
AAATCAAGGA GGAGCCAAAG GGGTGTGTAT AAACTGCCTG GCTAGAAGGG TGGGGGTGTT 180
TCCAGAGAGG CTTCAATGCC ATGAGTCAGC ACAGGAGAAA CACATGCACA GAAACACACA 240
CATGCAGTGC TAGTTTCTAT ATATCAAGCA GACCAGATGT TTTCTAGAGC CTCCCTTTGA 300
GACCTGGGCT CCATGCCCAG AAAAGGGCCT CTTATTGGTG TTCCTGTAAC TTGAAAGCAC 360
TTCCAGGAAA AGGGCCAGAA ATGACTTGGA TTTTTATTAT TGAAAAGGAT GTTTATCCAG 420
TGATACTGTC TAAAAGAGGG TTAAAAAATT GTACTTCATT AAATGTTTCC ACCCCCAATC 480
CTACTGCTCA CACAGCCAGA TTTCTGTTCT GGGTTGCAAA TTTCACTTCT CTCTACAACC 540
Claims (3)
1. one kind for the evaluation methodology of analysis of biological information technology used by high-flux sequence SNP, it is characterised in that this evaluation side
Method comprises the steps:
Step 1:
Double for 134 nucleotide sequence stochastic generation 100 layers as shown in SEQ ID NO:1~SEQ ID NO:134 ends are surveyed
Sequence sequence;
Step 2:
Analysis of biological information is used together with all sequences step 1 obtained and the high-flux sequence sequence treating analysis of biological information
Technology carries out information analysis, then tests information analysis result, thus evaluates the accurate of this analysis of biological information technology
Property and data reliability.
The most according to claim 1 for the evaluation methodology of analysis of biological information technology used by high-flux sequence SNP, its feature
It is that described inspection refers to recall rate and the accuracy rate of 402 SNP site in checking information analysis result;Described 402 SNP positions
Point is rs.hy00001~rs.hy0000402;Described rs.hy00001~rs.hy0000402 is as follows:
Rs.hy00001 is positioned on 12 chromosomes the 9217120th, and its Deoxydization nucleotide is G or G;
Rs.hy00002 is positioned on 12 chromosomes the 9217170th, and its Deoxydization nucleotide is G or C;
Rs.hy00003 is positioned on 12 chromosomes the 9217220th, and its Deoxydization nucleotide is C or C;
Rs.hy00004 is positioned on 16 chromosomes the 3930343rd, and its Deoxydization nucleotide is A or A;
Rs.hy00005 is positioned on 16 chromosomes the 3930393rd, and its Deoxydization nucleotide is C or G;
Rs.hy00006 is positioned on 16 chromosomes the 3930443rd, and its Deoxydization nucleotide is T or T;
Rs.hy00007 is positioned on 19 chromosomes the 14201098th, and its Deoxydization nucleotide is C or C;
Rs.hy00008 is positioned on 19 chromosomes the 14201148th, and its Deoxydization nucleotide is G or C;
Rs.hy00009 is positioned on 19 chromosomes the 14201198th, and its Deoxydization nucleotide is C or C;
Rs.hy000010 is positioned on 19 chromosomes the 47152352nd, and its Deoxydization nucleotide is C or C;
Rs.hy000011 is positioned on 19 chromosomes the 47152402nd, and its Deoxydization nucleotide is A or T;
Rs.hy000012 is positioned on 19 chromosomes the 47152452nd, and its Deoxydization nucleotide is C or C;
Rs.hy000013 is positioned on 1 chromosome the 20812211st, and its Deoxydization nucleotide is C or C;
Rs.hy000014 is positioned on 1 chromosome the 20812261st, and its Deoxydization nucleotide is G or C;
Rs.hy000015 is positioned on 1 chromosome the 20812311st, and its Deoxydization nucleotide is C or C;
Rs.hy000016 is positioned on 2 chromosomes the 236403045th, and its Deoxydization nucleotide is G or G;
Rs.hy000017 is positioned on 2 chromosomes the 236403095th, and its Deoxydization nucleotide is A or T;
Rs.hy000018 is positioned on 2 chromosomes the 236403145th, and its Deoxydization nucleotide is T or T;
Rs.hy000019 is positioned on 3 chromosomes the 18486568th, and its Deoxydization nucleotide is C or C;
Rs.hy000020 is positioned on 3 chromosomes the 18486618th, and its Deoxydization nucleotide is G or C;
Rs.hy000021 is positioned on 3 chromosomes the 18486668th, and its Deoxydization nucleotide is G or G;
Rs.hy000022 is positioned on 3 chromosomes the 50266712nd, and its Deoxydization nucleotide is G or G;
Rs.hy000023 is positioned on 3 chromosomes the 50266762nd, and its Deoxydization nucleotide is A or T;
Rs.hy000024 is positioned on 3 chromosomes the 50266812nd, and its Deoxydization nucleotide is A or A;
Rs.hy000025 is positioned on 3 chromosomes the 129324342nd, and its Deoxydization nucleotide is G or G;
Rs.hy000026 is positioned on 3 chromosomes the 129324392nd, and its Deoxydization nucleotide is G or C;
Rs.hy000027 is positioned on 3 chromosomes the 129324442nd, and its Deoxydization nucleotide is C or C;
Rs.hy000028 is positioned on 5 chromosomes the 157213807th, and its Deoxydization nucleotide is A or A;
Rs.hy000029 is positioned on 5 chromosomes the 157213857th, and its Deoxydization nucleotide is G or C;
Rs.hy000030 is positioned on 5 chromosomes the 157213907th, and its Deoxydization nucleotide is T or T;
Rs.hy000031 is positioned on 6 chromosomes the 163835620th, and its Deoxydization nucleotide is G or G;
Rs.hy000032 is positioned on 6 chromosomes the 163835670th, and its Deoxydization nucleotide is C or G;
Rs.hy000033 is positioned on 6 chromosomes the 163835720th, and its Deoxydization nucleotide is T or T;
Rs.hy000034 is positioned on 7 chromosomes the 150812032nd, and its Deoxydization nucleotide is T or T;
Rs.hy000035 is positioned on 7 chromosomes the 150812082nd, and its Deoxydization nucleotide is T or A;
Rs.hy000036 is positioned on 7 chromosomes the 150812132nd, and its Deoxydization nucleotide is G or G;
Rs.hy000037 is positioned on 8 chromosomes the 28909855th, and its Deoxydization nucleotide is T or T;
Rs.hy000038 is positioned on 8 chromosomes the 28909905th, and its Deoxydization nucleotide is T or A;
Rs.hy000039 is positioned on 8 chromosomes the 28909955th, and its Deoxydization nucleotide is A or A;
Rs.hy000040 is positioned on 8 chromosomes the 92408709th, and its Deoxydization nucleotide is G or G;
Rs.hy000041 is positioned on 8 chromosomes the 92408759th, and its Deoxydization nucleotide is A or T;
Rs.hy000042 is positioned on 8 chromosomes the 92408809th, and its Deoxydization nucleotide is A or A;
Rs.hy000043 is positioned on X chromosome the 11129773rd, and its Deoxydization nucleotide is T or T;
Rs.hy000044 is positioned on X chromosome the 11129823rd, and its Deoxydization nucleotide is C or G;
Rs.hy000045 is positioned on X chromosome the 11129873rd, and its Deoxydization nucleotide is C or C;
Rs.hy000046 is positioned on X chromosome the 12739803rd, and its Deoxydization nucleotide is T or T;
Rs.hy000047 is positioned on X chromosome the 12739853rd, and its Deoxydization nucleotide is C or G;
Rs.hy000048 is positioned on X chromosome the 12739903rd, and its Deoxydization nucleotide is C or C;
Rs.hy000049 is positioned on X chromosome the 12742061st, and its Deoxydization nucleotide is A or A;
Rs.hy000050 is positioned on X chromosome the 12742111st, and its Deoxydization nucleotide is A or T;
Rs.hy000051 is positioned on X chromosome the 12742161st, and its Deoxydization nucleotide is T or T;
Rs.hy000052 is positioned on X chromosome the 12938077th, and its Deoxydization nucleotide is C or C;
Rs.hy000053 is positioned on X chromosome the 12938127th, and its Deoxydization nucleotide is T or A;
Rs.hy000054 is positioned on X chromosome the 12938177th, and its Deoxydization nucleotide is C or C;
Rs.hy000055 is positioned on X chromosome the 15802493rd, and its Deoxydization nucleotide is T or T;
Rs.hy000056 is positioned on X chromosome the 15802543rd, and its Deoxydization nucleotide is T or A;
Rs.hy000057 is positioned on X chromosome the 15802593rd, and its Deoxydization nucleotide is T or T;
Rs.hy000058 is positioned on X chromosome the 15805317th, and its Deoxydization nucleotide is T or T;
Rs.hy000059 is positioned on X chromosome the 15805367th, and its Deoxydization nucleotide is C or G;
Rs.hy000060 is positioned on X chromosome the 15805417th, and its Deoxydization nucleotide is G or G;
Rs.hy000061 is positioned on X chromosome the 16780614th, and its Deoxydization nucleotide is T or T;
Rs.hy000062 is positioned on X chromosome the 16780664th, and its Deoxydization nucleotide is T or A;
Rs.hy000063 is positioned on X chromosome the 16780714th, and its Deoxydization nucleotide is T or T;
Rs.hy000064 is positioned on X chromosome the 17169264th, and its Deoxydization nucleotide is T or T;
Rs.hy000065 is positioned on X chromosome the 17169314th, and its Deoxydization nucleotide is T or A;
Rs.hy000066 is positioned on X chromosome the 17169364th, and its Deoxydization nucleotide is T or T;
Rs.hy000067 is positioned on X chromosome the 17604398th, and its Deoxydization nucleotide is G or G;
Rs.hy000068 is positioned on X chromosome the 17604448th, and its Deoxydization nucleotide is T or A;
Rs.hy000069 is positioned on X chromosome the 17604498th, and its Deoxydization nucleotide is T or T;
Rs.hy000070 is positioned on X chromosome the 17751485th, and its Deoxydization nucleotide is T or T;
Rs.hy000071 is positioned on X chromosome the 17751535th, and its Deoxydization nucleotide is G or C;
Rs.hy000072 is positioned on X chromosome the 17751585th, and its Deoxydization nucleotide is A or A;
Rs.hy000073 is positioned on X chromosome the 17762966th, and its Deoxydization nucleotide is G or G;
Rs.hy000074 is positioned on X chromosome the 17763016th, and its Deoxydization nucleotide is A or T;
Rs.hy000075 is positioned on X chromosome the 17763066th, and its Deoxydization nucleotide is A or A;
Rs.hy000076 is positioned on X chromosome the 19552824th, and its Deoxydization nucleotide is A or A;
Rs.hy000077 is positioned on X chromosome the 19552874th, and its Deoxydization nucleotide is C or G;
Rs.hy000078 is positioned on X chromosome the 19552924th, and its Deoxydization nucleotide is T or T;
Rs.hy000079 is positioned on X chromosome the 20025432nd, and its Deoxydization nucleotide is T or T;
Rs.hy000080 is positioned on X chromosome the 20025482nd, and its Deoxydization nucleotide is A or T;
Rs.hy000081 is positioned on X chromosome the 20025532nd, and its Deoxydization nucleotide is A or A;
Rs.hy000082 is positioned on X chromosome the 20168478th, and its Deoxydization nucleotide is T or T;
Rs.hy000083 is positioned on X chromosome the 20168528th, and its Deoxydization nucleotide is C or G;
Rs.hy000084 is positioned on X chromosome the 20168578th, and its Deoxydization nucleotide is A or A;
Rs.hy000085 is positioned on X chromosome the 21914525th, and its Deoxydization nucleotide is A or A;
Rs.hy000086 is positioned on X chromosome the 21914575th, and its Deoxydization nucleotide is T or A;
Rs.hy000087 is positioned on X chromosome the 21914625th, and its Deoxydization nucleotide is C or C;
Rs.hy000088 is positioned on X chromosome the 21959070th, and its Deoxydization nucleotide is C or C;
Rs.hy000089 is positioned on X chromosome the 21959120th, and its Deoxydization nucleotide is C or G;
Rs.hy000090 is positioned on X chromosome the 21959170th, and its Deoxydization nucleotide is G or G;
Rs.hy000091 is positioned on X chromosome the 24752212nd, and its Deoxydization nucleotide is A or A;
Rs.hy000092 is positioned on X chromosome the 24752262nd, and its Deoxydization nucleotide is C or G;
Rs.hy000093 is positioned on X chromosome the 24752312nd, and its Deoxydization nucleotide is A or A;
Rs.hy000094 is positioned on X chromosome the 30863921st, and its Deoxydization nucleotide is G or G;
Rs.hy000095 is positioned on X chromosome the 30863971st, and its Deoxydization nucleotide is G or C;
Rs.hy000096 is positioned on X chromosome the 30864021st, and its Deoxydization nucleotide is T or T;
Rs.hy000097 is positioned on X chromosome the 34646964th, and its Deoxydization nucleotide is G or G;
Rs.hy000098 is positioned on X chromosome the 34647014th, and its Deoxydization nucleotide is G or C;
Rs.hy000099 is positioned on X chromosome the 34647064th, and its Deoxydization nucleotide is A or A;
Rs.hy0000100 is positioned on X chromosome the 37314053rd, and its Deoxydization nucleotide is A or A;
Rs.hy0000101 is positioned on X chromosome the 37314103rd, and its Deoxydization nucleotide is G or C;
Rs.hy0000102 is positioned on X chromosome the 37314153rd, and its Deoxydization nucleotide is T or T;
Rs.hy0000103 is positioned on X chromosome the 37537036th, and its Deoxydization nucleotide is T or T;
Rs.hy0000104 is positioned on X chromosome the 37537086th, and its Deoxydization nucleotide is T or A;
Rs.hy0000105 is positioned on X chromosome the 37537136th, and its Deoxydization nucleotide is G or G;
Rs.hy0000106 is positioned on X chromosome the 37539303rd, and its Deoxydization nucleotide is A or A;
Rs.hy0000107 is positioned on X chromosome the 37539353rd, and its Deoxydization nucleotide is A or T;
Rs.hy0000108 is positioned on X chromosome the 37539403rd, and its Deoxydization nucleotide is T or T;
Rs.hy0000109 is positioned on X chromosome the 37540716th, and its Deoxydization nucleotide is A or A;
Rs.hy0000110 is positioned on X chromosome the 37540766th, and its Deoxydization nucleotide is A or T;
Rs.hy0000111 is positioned on X chromosome the 37540816th, and its Deoxydization nucleotide is T or T;
Rs.hy0000112 is positioned on X chromosome the 39936745th, and its Deoxydization nucleotide is G or G;
Rs.hy0000113 is positioned on X chromosome the 39936795th, and its Deoxydization nucleotide is A or T;
Rs.hy0000114 is positioned on X chromosome the 39936845th, and its Deoxydization nucleotide is A or A;
Rs.hy0000115 is positioned on X chromosome the 40508777th, and its Deoxydization nucleotide is A or A;
Rs.hy0000116 is positioned on X chromosome the 40508827th, and its Deoxydization nucleotide is A or T;
Rs.hy0000117 is positioned on X chromosome the 40508877th, and its Deoxydization nucleotide is G or G;
Rs.hy0000118 is positioned on X chromosome the 41375457th, and its Deoxydization nucleotide is A or A;
Rs.hy0000119 is positioned on X chromosome the 41375507th, and its Deoxydization nucleotide is T or A;
Rs.hy0000120 is positioned on X chromosome the 41375557th, and its Deoxydization nucleotide is C or C;
Rs.hy0000121 is positioned on X chromosome the 41378484th, and its Deoxydization nucleotide is A or A;
Rs.hy0000122 is positioned on X chromosome the 41378534th, and its Deoxydization nucleotide is G or C;
Rs.hy0000123 is positioned on X chromosome the 41378584th, and its Deoxydization nucleotide is C or C;
Rs.hy0000124 is positioned on X chromosome the 41379339th, and its Deoxydization nucleotide is T or T;
Rs.hy0000125 is positioned on X chromosome the 41379389th, and its Deoxydization nucleotide is T or A;
Rs.hy0000126 is positioned on X chromosome the 41379439th, and its Deoxydization nucleotide is T or T;
Rs.hy0000127 is positioned on X chromosome the 46333500th, and its Deoxydization nucleotide is A or A;
Rs.hy0000128 is positioned on X chromosome the 46333550th, and its Deoxydization nucleotide is T or A;
Rs.hy0000129 is positioned on X chromosome the 46333600th, and its Deoxydization nucleotide is T or T;
Rs.hy0000130 is positioned on X chromosome the 46357741st, and its Deoxydization nucleotide is A or A;
Rs.hy0000131 is positioned on X chromosome the 46357791st, and its Deoxydization nucleotide is G or C;
Rs.hy0000132 is positioned on X chromosome the 46357841st, and its Deoxydization nucleotide is A or A;
Rs.hy0000133 is positioned on X chromosome the 46740622nd, and its Deoxydization nucleotide is A or A;
Rs.hy0000134 is positioned on X chromosome the 46740672nd, and its Deoxydization nucleotide is T or A;
Rs.hy0000135 is positioned on X chromosome the 46740722nd, and its Deoxydization nucleotide is T or T;
Rs.hy0000136 is positioned on X chromosome the 46919333rd, and its Deoxydization nucleotide is G or G;
Rs.hy0000137 is positioned on X chromosome the 46919383rd, and its Deoxydization nucleotide is A or T;
Rs.hy0000138 is positioned on X chromosome the 46919433rd, and its Deoxydization nucleotide is A or A;
Rs.hy0000139 is positioned on X chromosome the 47306128th, and its Deoxydization nucleotide is A or A;
Rs.hy0000140 is positioned on X chromosome the 47306178th, and its Deoxydization nucleotide is A or T;
Rs.hy0000141 is positioned on X chromosome the 47306228th, and its Deoxydization nucleotide is T or T;
Rs.hy0000142 is positioned on X chromosome the 47779227th, and its Deoxydization nucleotide is A or A;
Rs.hy0000143 is positioned on X chromosome the 47779277th, and its Deoxydization nucleotide is T or A;
Rs.hy0000144 is positioned on X chromosome the 47779327th, and its Deoxydization nucleotide is A or A;
Rs.hy0000145 is positioned on X chromosome the 47779706th, and its Deoxydization nucleotide is A or A;
Rs.hy0000146 is positioned on X chromosome the 47779756th, and its Deoxydization nucleotide is G or C;
Rs.hy0000147 is positioned on X chromosome the 47779806th, and its Deoxydization nucleotide is C or C;
Rs.hy0000148 is positioned on X chromosome the 48458479th, and its Deoxydization nucleotide is A or A;
Rs.hy0000149 is positioned on X chromosome the 48458529th, and its Deoxydization nucleotide is T or A;
Rs.hy0000150 is positioned on X chromosome the 48458579th, and its Deoxydization nucleotide is G or G;
Rs.hy0000151 is positioned on X chromosome the 48566479th, and its Deoxydization nucleotide is G or G;
Rs.hy0000152 is positioned on X chromosome the 48566529th, and its Deoxydization nucleotide is G or C;
Rs.hy0000153 is positioned on X chromosome the 48566579th, and its Deoxydization nucleotide is C or C;
Rs.hy0000154 is positioned on X chromosome the 48660691st, and its Deoxydization nucleotide is T or T;
Rs.hy0000155 is positioned on X chromosome the 48660741st, and its Deoxydization nucleotide is T or A;
Rs.hy0000156 is positioned on X chromosome the 48660791st, and its Deoxydization nucleotide is A or A;
Rs.hy0000157 is positioned on X chromosome the 48664262nd, and its Deoxydization nucleotide is T or T;
Rs.hy0000158 is positioned on X chromosome the 48664312nd, and its Deoxydization nucleotide is C or G;
Rs.hy0000159 is positioned on X chromosome the 48664362nd, and its Deoxydization nucleotide is C or C;
Rs.hy0000160 is positioned on X chromosome the 48772052nd, and its Deoxydization nucleotide is C or C;
Rs.hy0000161 is positioned on X chromosome the 48772102nd, and its Deoxydization nucleotide is A or T;
Rs.hy0000162 is positioned on X chromosome the 48772152nd, and its Deoxydization nucleotide is G or G;
Rs.hy0000163 is positioned on X chromosome the 48824480th, and its Deoxydization nucleotide is T or T;
Rs.hy0000164 is positioned on X chromosome the 48824530th, and its Deoxydization nucleotide is G or C;
Rs.hy0000165 is positioned on X chromosome the 48824580th, and its Deoxydization nucleotide is T or T;
Rs.hy0000166 is positioned on X chromosome the 50110303rd, and its Deoxydization nucleotide is G or G;
Rs.hy0000167 is positioned on X chromosome the 50110353rd, and its Deoxydization nucleotide is G or C;
Rs.hy0000168 is positioned on X chromosome the 50110403rd, and its Deoxydization nucleotide is T or T;
Rs.hy0000169 is positioned on X chromosome the 53107600th, and its Deoxydization nucleotide is G or G;
Rs.hy0000170 is positioned on X chromosome the 53107650th, and its Deoxydization nucleotide is A or T;
Rs.hy0000171 is positioned on X chromosome the 53107700th, and its Deoxydization nucleotide is T or T;
Rs.hy0000172 is positioned on X chromosome the 54097148th, and its Deoxydization nucleotide is C or C;
Rs.hy0000173 is positioned on X chromosome the 54097198th, and its Deoxydization nucleotide is T or A;
Rs.hy0000174 is positioned on X chromosome the 54097248th, and its Deoxydization nucleotide is T or T;
Rs.hy0000175 is positioned on X chromosome the 54099244th, and its Deoxydization nucleotide is T or T;
Rs.hy0000176 is positioned on X chromosome the 54099294th, and its Deoxydization nucleotide is T or A;
Rs.hy0000177 is positioned on X chromosome the 54099344th, and its Deoxydization nucleotide is T or T;
Rs.hy0000178 is positioned on X chromosome the 54219632nd, and its Deoxydization nucleotide is T or T;
Rs.hy0000179 is positioned on X chromosome the 54219682nd, and its Deoxydization nucleotide is A or T;
Rs.hy0000180 is positioned on X chromosome the 54219732nd, and its Deoxydization nucleotide is G or G;
Rs.hy0000181 is positioned on X chromosome the 54220198th, and its Deoxydization nucleotide is A or A;
Rs.hy0000182 is positioned on X chromosome the 54220248th, and its Deoxydization nucleotide is A or T;
Rs.hy0000183 is positioned on X chromosome the 54220298th, and its Deoxydization nucleotide is C or C;
Rs.hy0000184 is positioned on X chromosome the 54220985th, and its Deoxydization nucleotide is T or T;
Rs.hy0000185 is positioned on X chromosome the 54221035th, and its Deoxydization nucleotide is A or T;
Rs.hy0000186 is positioned on X chromosome the 54221085th, and its Deoxydization nucleotide is C or C;
Rs.hy0000187 is positioned on X chromosome the 54221941st, and its Deoxydization nucleotide is T or T;
Rs.hy0000188 is positioned on X chromosome the 54221991st, and its Deoxydization nucleotide is T or A;
Rs.hy0000189 is positioned on X chromosome the 54222041st, and its Deoxydization nucleotide is T or T;
Rs.hy0000190 is positioned on X chromosome the 55511610th, and its Deoxydization nucleotide is T or T;
Rs.hy0000191 is positioned on X chromosome the 55511660th, and its Deoxydization nucleotide is T or A;
Rs.hy0000192 is positioned on X chromosome the 55511710th, and its Deoxydization nucleotide is A or A;
Rs.hy0000193 is positioned on X chromosome the 55651473rd, and its Deoxydization nucleotide is T or T;
Rs.hy0000194 is positioned on X chromosome the 55651523rd, and its Deoxydization nucleotide is G or C;
Rs.hy0000195 is positioned on X chromosome the 55651573rd, and its Deoxydization nucleotide is A or A;
Rs.hy0000196 is positioned on X chromosome the 56592519th, and its Deoxydization nucleotide is G or G;
Rs.hy0000197 is positioned on X chromosome the 56592569th, and its Deoxydization nucleotide is T or A;
Rs.hy0000198 is positioned on X chromosome the 56592619th, and its Deoxydization nucleotide is A or A;
Rs.hy0000199 is positioned on X chromosome the 57021527th, and its Deoxydization nucleotide is T or T;
Rs.hy0000200 is positioned on X chromosome the 57021577th, and its Deoxydization nucleotide is T or A;
Rs.hy0000201 is positioned on X chromosome the 57021627th, and its Deoxydization nucleotide is G or G;
Rs.hy0000202 is positioned on X chromosome the 64724325th, and its Deoxydization nucleotide is A or A;
Rs.hy0000203 is positioned on X chromosome the 64724375th, and its Deoxydization nucleotide is G or C;
Rs.hy0000204 is positioned on X chromosome the 64724425th, and its Deoxydization nucleotide is T or T;
Rs.hy0000205 is positioned on X chromosome the 66764162nd, and its Deoxydization nucleotide is C or C;
Rs.hy0000206 is positioned on X chromosome the 66764212nd, and its Deoxydization nucleotide is C or G;
Rs.hy0000207 is positioned on X chromosome the 66764262nd, and its Deoxydization nucleotide is C or C;
Rs.hy0000208 is positioned on X chromosome the 66947630th, and its Deoxydization nucleotide is C or C;
Rs.hy0000209 is positioned on X chromosome the 66947680th, and its Deoxydization nucleotide is C or G;
Rs.hy0000210 is positioned on X chromosome the 66947730th, and its Deoxydization nucleotide is G or G;
Rs.hy0000211 is positioned on X chromosome the 67264144th, and its Deoxydization nucleotide is C or C;
Rs.hy0000212 is positioned on X chromosome the 67264194th, and its Deoxydization nucleotide is T or A;
Rs.hy0000213 is positioned on X chromosome the 67264244th, and its Deoxydization nucleotide is A or A;
Rs.hy0000214 is positioned on X chromosome the 67753520th, and its Deoxydization nucleotide is A or A;
Rs.hy0000215 is positioned on X chromosome the 67753570th, and its Deoxydization nucleotide is G or C;
Rs.hy0000216 is positioned on X chromosome the 67753620th, and its Deoxydization nucleotide is A or A;
Rs.hy0000217 is positioned on X chromosome the 68429060th, and its Deoxydization nucleotide is T or T;
Rs.hy0000218 is positioned on X chromosome the 68429110th, and its Deoxydization nucleotide is T or A;
Rs.hy0000219 is positioned on X chromosome the 68429160th, and its Deoxydization nucleotide is T or T;
Rs.hy0000220 is positioned on X chromosome the 69264019th, and its Deoxydization nucleotide is G or G;
Rs.hy0000221 is positioned on X chromosome the 69264069th, and its Deoxydization nucleotide is C or G;
Rs.hy0000222 is positioned on X chromosome the 69264119th, and its Deoxydization nucleotide is A or A;
Rs.hy0000223 is positioned on X chromosome the 69723339th, and its Deoxydization nucleotide is G or G;
Rs.hy0000224 is positioned on X chromosome the 69723389th, and its Deoxydization nucleotide is C or G;
Rs.hy0000225 is positioned on X chromosome the 69723439th, and its Deoxydization nucleotide is A or A;
Rs.hy0000226 is positioned on X chromosome the 70459977th, and its Deoxydization nucleotide is T or T;
Rs.hy0000227 is positioned on X chromosome the 70460027th, and its Deoxydization nucleotide is C or G;
Rs.hy0000228 is positioned on X chromosome the 70460077th, and its Deoxydization nucleotide is T or T;
Rs.hy0000229 is positioned on X chromosome the 70765292nd, and its Deoxydization nucleotide is A or A;
Rs.hy0000230 is positioned on X chromosome the 70765342nd, and its Deoxydization nucleotide is C or G;
Rs.hy0000231 is positioned on X chromosome the 70765392nd, and its Deoxydization nucleotide is A or A;
Rs.hy0000232 is positioned on X chromosome the 70766239th, and its Deoxydization nucleotide is A or A;
Rs.hy0000233 is positioned on X chromosome the 70766289th, and its Deoxydization nucleotide is C or G;
Rs.hy0000234 is positioned on X chromosome the 70766339th, and its Deoxydization nucleotide is C or C;
Rs.hy0000235 is positioned on X chromosome the 73807064th, and its Deoxydization nucleotide is A or A;
Rs.hy0000236 is positioned on X chromosome the 73807114th, and its Deoxydization nucleotide is A or T;
Rs.hy0000237 is positioned on X chromosome the 73807164th, and its Deoxydization nucleotide is T or T;
Rs.hy0000238 is positioned on X chromosome the 73958234th, and its Deoxydization nucleotide is C or C;
Rs.hy0000239 is positioned on X chromosome the 73958284th, and its Deoxydization nucleotide is T or A;
Rs.hy0000240 is positioned on X chromosome the 73958334th, and its Deoxydization nucleotide is T or T;
Rs.hy0000241 is positioned on X chromosome the 74965897th, and its Deoxydization nucleotide is C or C;
Rs.hy0000242 is positioned on X chromosome the 74965947th, and its Deoxydization nucleotide is T or A;
Rs.hy0000243 is positioned on X chromosome the 74965997th, and its Deoxydization nucleotide is T or T;
Rs.hy0000244 is positioned on X chromosome the 76763219th, and its Deoxydization nucleotide is T or T;
Rs.hy0000245 is positioned on X chromosome the 76763269th, and its Deoxydization nucleotide is C or G;
Rs.hy0000246 is positioned on X chromosome the 76763319th, and its Deoxydization nucleotide is A or A;
Rs.hy0000247 is positioned on X chromosome the 77305408th, and its Deoxydization nucleotide is C or C;
Rs.hy0000248 is positioned on X chromosome the 77305458th, and its Deoxydization nucleotide is T or A;
Rs.hy0000249 is positioned on X chromosome the 77305508th, and its Deoxydization nucleotide is T or T;
Rs.hy0000250 is positioned on X chromosome the 99547464th, and its Deoxydization nucleotide is T or T;
Rs.hy0000251 is positioned on X chromosome the 99547514th, and its Deoxydization nucleotide is C or G;
Rs.hy0000252 is positioned on X chromosome the 99547564th, and its Deoxydization nucleotide is C or C;
Rs.hy0000253 is positioned on X chromosome the 99940506th, and its Deoxydization nucleotide is G or G;
Rs.hy0000254 is positioned on X chromosome the 99940556th, and its Deoxydization nucleotide is C or G;
Rs.hy0000255 is positioned on X chromosome the 99940606th, and its Deoxydization nucleotide is T or T;
Rs.hy0000256 is positioned on X chromosome the 100292255th, and its Deoxydization nucleotide is T or T;
Rs.hy0000257 is positioned on X chromosome the 100292305th, and its Deoxydization nucleotide is A or T;
Rs.hy0000258 is positioned on X chromosome the 100292355th, and its Deoxydization nucleotide is G or G;
Rs.hy0000259 is positioned on X chromosome the 102932144th, and its Deoxydization nucleotide is A or A;
Rs.hy0000260 is positioned on X chromosome the 102932194th, and its Deoxydization nucleotide is A or T;
Rs.hy0000261 is positioned on X chromosome the 102932244th, and its Deoxydization nucleotide is C or C;
Rs.hy0000262 is positioned on X chromosome the 105200979th, and its Deoxydization nucleotide is T or T;
Rs.hy0000263 is positioned on X chromosome the 105201029th, and its Deoxydization nucleotide is T or A;
Rs.hy0000264 is positioned on X chromosome the 105201079th, and its Deoxydization nucleotide is A or A;
Rs.hy0000265 is positioned on X chromosome the 107018903rd, and its Deoxydization nucleotide is G or G;
Rs.hy0000266 is positioned on X chromosome the 107018953rd, and its Deoxydization nucleotide is C or G;
Rs.hy0000267 is positioned on X chromosome the 107019003rd, and its Deoxydization nucleotide is C or C;
Rs.hy0000268 is positioned on X chromosome the 107869814th, and its Deoxydization nucleotide is T or T;
Rs.hy0000269 is positioned on X chromosome the 107869864th, and its Deoxydization nucleotide is G or C;
Rs.hy0000270 is positioned on X chromosome the 107869914th, and its Deoxydization nucleotide is A or A;
Rs.hy0000271 is positioned on X chromosome the 108786039th, and its Deoxydization nucleotide is A or A;
Rs.hy0000272 is positioned on X chromosome the 108786089th, and its Deoxydization nucleotide is A or T;
Rs.hy0000273 is positioned on X chromosome the 108786139th, and its Deoxydization nucleotide is G or G;
Rs.hy0000274 is positioned on X chromosome the 108787228th, and its Deoxydization nucleotide is T or T;
Rs.hy0000275 is positioned on X chromosome the 108787278th, and its Deoxydization nucleotide is C or G;
Rs.hy0000276 is positioned on X chromosome the 108787328th, and its Deoxydization nucleotide is A or A;
Rs.hy0000277 is positioned on X chromosome the 108886466th, and its Deoxydization nucleotide is A or A;
Rs.hy0000278 is positioned on X chromosome the 108886516th, and its Deoxydization nucleotide is T or A;
Rs.hy0000279 is positioned on X chromosome the 108886566th, and its Deoxydization nucleotide is C or C;
Rs.hy0000280 is positioned on X chromosome the 109417296th, and its Deoxydization nucleotide is C or C;
Rs.hy0000281 is positioned on X chromosome the 109417346th, and its Deoxydization nucleotide is A or T;
Rs.hy0000282 is positioned on X chromosome the 109417396th, and its Deoxydization nucleotide is A or A;
Rs.hy0000283 is positioned on X chromosome the 109438381st, and its Deoxydization nucleotide is G or G;
Rs.hy0000284 is positioned on X chromosome the 109438431st, and its Deoxydization nucleotide is C or G;
Rs.hy0000285 is positioned on X chromosome the 109438481st, and its Deoxydization nucleotide is A or A;
Rs.hy0000286 is positioned on X chromosome the 109439872nd, and its Deoxydization nucleotide is C or C;
Rs.hy0000287 is positioned on X chromosome the 109439922nd, and its Deoxydization nucleotide is C or G;
Rs.hy0000288 is positioned on X chromosome the 109439972nd, and its Deoxydization nucleotide is A or A;
Rs.hy0000289 is positioned on X chromosome the 110539404th, and its Deoxydization nucleotide is T or T;
Rs.hy0000290 is positioned on X chromosome the 110539454th, and its Deoxydization nucleotide is A or T;
Rs.hy0000291 is positioned on X chromosome the 110539504th, and its Deoxydization nucleotide is T or T;
Rs.hy0000292 is positioned on X chromosome the 110543369th, and its Deoxydization nucleotide is C or C;
Rs.hy0000293 is positioned on X chromosome the 110543419th, and its Deoxydization nucleotide is C or G;
Rs.hy0000294 is positioned on X chromosome the 110543469th, and its Deoxydization nucleotide is A or A;
Rs.hy0000295 is positioned on X chromosome the 117927692nd, and its Deoxydization nucleotide is C or C;
Rs.hy0000296 is positioned on X chromosome the 117927742nd, and its Deoxydization nucleotide is G or C;
Rs.hy0000297 is positioned on X chromosome the 117927792nd, and its Deoxydization nucleotide is C or C;
Rs.hy0000298 is positioned on X chromosome the 118753367th, and its Deoxydization nucleotide is A or A;
Rs.hy0000299 is positioned on X chromosome the 118753417th, and its Deoxydization nucleotide is C or G;
Rs.hy0000300 is positioned on X chromosome the 118753467th, and its Deoxydization nucleotide is T or T;
Rs.hy0000301 is positioned on X chromosome the 119371064th, and its Deoxydization nucleotide is G or G;
Rs.hy0000302 is positioned on X chromosome the 119371114th, and its Deoxydization nucleotide is C or G;
Rs.hy0000303 is positioned on X chromosome the 119371164th, and its Deoxydization nucleotide is T or T;
Rs.hy0000304 is positioned on X chromosome the 122623639th, and its Deoxydization nucleotide is T or T;
Rs.hy0000305 is positioned on X chromosome the 122623689th, and its Deoxydization nucleotide is G or C;
Rs.hy0000306 is positioned on X chromosome the 122623739th, and its Deoxydization nucleotide is A or A;
Rs.hy0000307 is positioned on X chromosome the 122735823rd, and its Deoxydization nucleotide is G or G;
Rs.hy0000308 is positioned on X chromosome the 122735873rd, and its Deoxydization nucleotide is A or T;
Rs.hy0000309 is positioned on X chromosome the 122735923rd, and its Deoxydization nucleotide is A or A;
Rs.hy0000310 is positioned on X chromosome the 122753661st, and its Deoxydization nucleotide is A or A;
Rs.hy0000311 is positioned on X chromosome the 122753711st, and its Deoxydization nucleotide is C or G;
Rs.hy0000312 is positioned on X chromosome the 122753761st, and its Deoxydization nucleotide is C or C;
Rs.hy0000313 is positioned on X chromosome the 122993915th, and its Deoxydization nucleotide is A or A;
Rs.hy0000314 is positioned on X chromosome the 122993965th, and its Deoxydization nucleotide is G or C;
Rs.hy0000315 is positioned on X chromosome the 122994015th, and its Deoxydization nucleotide is T or T;
Rs.hy0000316 is positioned on X chromosome the 123236116th, and its Deoxydization nucleotide is G or G;
Rs.hy0000317 is positioned on X chromosome the 123236166th, and its Deoxydization nucleotide is C or G;
Rs.hy0000318 is positioned on X chromosome the 123236216th, and its Deoxydization nucleotide is G or G;
Rs.hy0000319 is positioned on X chromosome the 123505654th, and its Deoxydization nucleotide is C or C;
Rs.hy0000320 is positioned on X chromosome the 123505704th, and its Deoxydization nucleotide is C or G;
Rs.hy0000321 is positioned on X chromosome the 123505754th, and its Deoxydization nucleotide is T or T;
Rs.hy0000322 is positioned on X chromosome the 125684599th, and its Deoxydization nucleotide is T or T;
Rs.hy0000323 is positioned on X chromosome the 125684649th, and its Deoxydization nucleotide is T or A;
Rs.hy0000324 is positioned on X chromosome the 125684699th, and its Deoxydization nucleotide is A or A;
Rs.hy0000325 is positioned on X chromosome the 130418385th, and its Deoxydization nucleotide is A or A;
Rs.hy0000326 is positioned on X chromosome the 130418435th, and its Deoxydization nucleotide is C or G;
Rs.hy0000327 is positioned on X chromosome the 130418485th, and its Deoxydization nucleotide is T or T;
Rs.hy0000328 is positioned on X chromosome the 131339258th, and its Deoxydization nucleotide is A or A;
Rs.hy0000329 is positioned on X chromosome the 131339308th, and its Deoxydization nucleotide is C or G;
Rs.hy0000330 is positioned on X chromosome the 131339358th, and its Deoxydization nucleotide is G or G;
Rs.hy0000331 is positioned on X chromosome the 131506611st, and its Deoxydization nucleotide is G or G;
Rs.hy0000332 is positioned on X chromosome the 131506661st, and its Deoxydization nucleotide is C or G;
Rs.hy0000333 is positioned on X chromosome the 131506711st, and its Deoxydization nucleotide is C or C;
Rs.hy0000334 is positioned on X chromosome the 131511515th, and its Deoxydization nucleotide is T or T;
Rs.hy0000335 is positioned on X chromosome the 131511565th, and its Deoxydization nucleotide is C or G;
Rs.hy0000336 is positioned on X chromosome the 131511615th, and its Deoxydization nucleotide is T or T;
Rs.hy0000337 is positioned on X chromosome the 132435634th, and its Deoxydization nucleotide is A or A;
Rs.hy0000338 is positioned on X chromosome the 132435684th, and its Deoxydization nucleotide is T or A;
Rs.hy0000339 is positioned on X chromosome the 132435734th, and its Deoxydization nucleotide is C or C;
Rs.hy0000340 is positioned on X chromosome the 133735846th, and its Deoxydization nucleotide is C or C;
Rs.hy0000341 is positioned on X chromosome the 133735896th, and its Deoxydization nucleotide is A or T;
Rs.hy0000342 is positioned on X chromosome the 133735946th, and its Deoxydization nucleotide is T or T;
Rs.hy0000343 is positioned on X chromosome the 134703560th, and its Deoxydization nucleotide is A or A;
Rs.hy0000344 is positioned on X chromosome the 134703610th, and its Deoxydization nucleotide is T or A;
Rs.hy0000345 is positioned on X chromosome the 134703660th, and its Deoxydization nucleotide is A or A;
Rs.hy0000346 is positioned on X chromosome the 134704399th, and its Deoxydization nucleotide is A or A;
Rs.hy0000347 is positioned on X chromosome the 134704449th, and its Deoxydization nucleotide is A or T;
Rs.hy0000348 is positioned on X chromosome the 134704499th, and its Deoxydization nucleotide is T or T;
Rs.hy0000349 is positioned on X chromosome the 134706013rd, and its Deoxydization nucleotide is T or T;
Rs.hy0000350 is positioned on X chromosome the 134706063rd, and its Deoxydization nucleotide is C or G;
Rs.hy0000351 is positioned on X chromosome the 134706113rd, and its Deoxydization nucleotide is T or T;
Rs.hy0000352 is positioned on X chromosome the 138664290th, and its Deoxydization nucleotide is A or A;
Rs.hy0000353 is positioned on X chromosome the 138664340th, and its Deoxydization nucleotide is T or A;
Rs.hy0000354 is positioned on X chromosome the 138664390th, and its Deoxydization nucleotide is C or C;
Rs.hy0000355 is positioned on X chromosome the 144905119th, and its Deoxydization nucleotide is C or C;
Rs.hy0000356 is positioned on X chromosome the 144905169th, and its Deoxydization nucleotide is A or T;
Rs.hy0000357 is positioned on X chromosome the 144905219th, and its Deoxydization nucleotide is G or G;
Rs.hy0000358 is positioned on X chromosome the 146991950th, and its Deoxydization nucleotide is G or G;
Rs.hy0000359 is positioned on X chromosome the 146992000th, and its Deoxydization nucleotide is T or A;
Rs.hy0000360 is positioned on X chromosome the 146992050th, and its Deoxydization nucleotide is A or A;
Rs.hy0000361 is positioned on X chromosome the 147030816th, and its Deoxydization nucleotide is A or A;
Rs.hy0000362 is positioned on X chromosome the 147030866th, and its Deoxydization nucleotide is T or A;
Rs.hy0000363 is positioned on X chromosome the 147030916th, and its Deoxydization nucleotide is A or A;
Rs.hy0000364 is positioned on X chromosome the 148561538th, and its Deoxydization nucleotide is C or C;
Rs.hy0000365 is positioned on X chromosome the 148561588th, and its Deoxydization nucleotide is A or T;
Rs.hy0000366 is positioned on X chromosome the 148561638th, and its Deoxydization nucleotide is G or G;
Rs.hy0000367 is positioned on X chromosome the 148563357th, and its Deoxydization nucleotide is A or A;
Rs.hy0000368 is positioned on X chromosome the 148563407th, and its Deoxydization nucleotide is G or C;
Rs.hy0000369 is positioned on X chromosome the 148563457th, and its Deoxydization nucleotide is A or A;
Rs.hy0000370 is positioned on X chromosome the 152939142nd, and its Deoxydization nucleotide is C or C;
Rs.hy0000371 is positioned on X chromosome the 152939192nd, and its Deoxydization nucleotide is G or C;
Rs.hy0000372 is positioned on X chromosome the 152939242nd, and its Deoxydization nucleotide is C or C;
Rs.hy0000373 is positioned on X chromosome the 153288616th, and its Deoxydization nucleotide is T or T;
Rs.hy0000374 is positioned on X chromosome the 153288666th, and its Deoxydization nucleotide is T or A;
Rs.hy0000375 is positioned on X chromosome the 153288716th, and its Deoxydization nucleotide is G or G;
Rs.hy0000376 is positioned on X chromosome the 153737311st, and its Deoxydization nucleotide is G or G;
Rs.hy0000377 is positioned on X chromosome the 153737361st, and its Deoxydization nucleotide is T or A;
Rs.hy0000378 is positioned on X chromosome the 153737411st, and its Deoxydization nucleotide is A or A;
Rs.hy0000379 is positioned on X chromosome the 153905117th, and its Deoxydization nucleotide is T or T;
Rs.hy0000380 is positioned on X chromosome the 153905167th, and its Deoxydization nucleotide is T or A;
Rs.hy0000381 is positioned on X chromosome the 153905217th, and its Deoxydization nucleotide is C or C;
Rs.hy0000382 is positioned on X chromosome the 154010336th, and its Deoxydization nucleotide is C or C;
Rs.hy0000383 is positioned on X chromosome the 154010386th, and its Deoxydization nucleotide is T or A;
Rs.hy0000384 is positioned on X chromosome the 154010436th, and its Deoxydization nucleotide is T or T;
Rs.hy0000385 is positioned on X chromosome the 154065414th, and its Deoxydization nucleotide is A or A;
Rs.hy0000386 is positioned on X chromosome the 154065464th, and its Deoxydization nucleotide is T or A;
Rs.hy0000387 is positioned on X chromosome the 154065514th, and its Deoxydization nucleotide is T or T;
Rs.hy0000388 is positioned on X chromosome the 154277886th, and its Deoxydization nucleotide is A or A;
Rs.hy0000389 is positioned on X chromosome the 154277936th, and its Deoxydization nucleotide is T or A;
Rs.hy0000390 is positioned on X chromosome the 154277986th, and its Deoxydization nucleotide is A or A;
Rs.hy0000391 is positioned on X chromosome the 154292527th, and its Deoxydization nucleotide is T or T;
Rs.hy0000392 is positioned on X chromosome the 154292577th, and its Deoxydization nucleotide is G or C;
Rs.hy0000393 is positioned on X chromosome the 154292627th, and its Deoxydization nucleotide is G or G;
Rs.hy0000394 is positioned on X chromosome the 154489494th, and its Deoxydization nucleotide is A or A;
Rs.hy0000395 is positioned on X chromosome the 154489544th, and its Deoxydization nucleotide is T or A;
Rs.hy0000396 is positioned on X chromosome the 154489594th, and its Deoxydization nucleotide is T or T;
Rs.hy0000397 is positioned on X chromosome the 154506585th, and its Deoxydization nucleotide is G or G;
Rs.hy0000398 is positioned on X chromosome the 154506635th, and its Deoxydization nucleotide is C or G;
Rs.hy0000399 is positioned on X chromosome the 154506685th, and its Deoxydization nucleotide is T or T;
Rs.hy0000400 is positioned on X chromosome the 154564082nd, and its Deoxydization nucleotide is T or T;
Rs.hy0000401 is positioned on X chromosome the 154564132nd, and its Deoxydization nucleotide is A or T;
Rs.hy0000402 is positioned on X chromosome the 154564182nd, and its Deoxydization nucleotide is C or C.
The most according to claim 2 for the evaluation methodology of analysis of biological information technology used by high-flux sequence SNP, its feature
Be recall rate < 95% of described 402 SNP site, then accuracy rate and the data reliability of this analysis of biological information technology are equal
Bad, need to optimize;Recall rate >=95% of described 402 SNP, accuracy rate < 95%, then this analysis of biological information technology is accurate
Rate and data reliability are the most bad, need to optimize;Recall rate >=95% of described 402 SNP, and accuracy rate >=95%, then this biology
The accuracy of information analysis techniques and numerical value good reliability.
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