CN104535758A - Method for coupling polypeptide or protein to microsphere in covalent mode - Google Patents
Method for coupling polypeptide or protein to microsphere in covalent mode Download PDFInfo
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- CN104535758A CN104535758A CN201510006992.3A CN201510006992A CN104535758A CN 104535758 A CN104535758 A CN 104535758A CN 201510006992 A CN201510006992 A CN 201510006992A CN 104535758 A CN104535758 A CN 104535758A
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/48—Biological material, e.g. blood, urine; Haemocytometers
- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/53—Immunoassay; Biospecific binding assay; Materials therefor
- G01N33/531—Production of immunochemical test materials
Abstract
The invention relates to a method for coupling polypeptide or protein to a microsphere in a covalent mode. The method includes the steps that the microsphere is provided, the polypeptide or protein is provided, the microsphere and the polypeptide or protein are made to make contact with carbodiimide and N-hydroxy succinimide sulfur generation at the same time to conduct covalent coupling reaction. The reagent prepared by the method effectively improves the self polymerization of the polypeptide or protein in the coupling process, and better linear performance is achieved when a standard curve is drawn.
Description
The divisional application of to be 201310236062.8 applyings date be on 06 17th, 2013 denominations of invention the are Chinese patent application of " a kind of coupling method that will be coupled to containing amino molecule covalent on microballoon " that the application is application number.
Technical field
The present invention relates to biochemical and clinical examination field.Specifically, the present invention relates to a kind of covalent coupling method.More specifically, a kind of coupling method that will be coupled to containing amino molecule covalent on microballoon is related to.
Background technology
In the middle of traditional immunization turbidimetry, if antigen to be detected in sample or antibody concentration are too low or molecular weight is too small, then antigen-antibody complex is extremely difficult forms turbidity, unless placed the long time.As larger compound will be formed, then the consumption of antigen and antibody also corresponding increase.In view of above-mentioned defect, just develop latex enhancing immune turbidimetry.
Latex enhancing immune turbidimetry utilizes biochemical method to be combined with microballoon by antibody (or antigen).When antigen (or antibody) to be detected in sample combines to the antibody (or antigen) on microballoon with mark, just define Ag-Ab-latex particle compound.This improves the formation of turbidity undoubtedly, enhances reaction absorbance.Utilize Biochemical Analyzer to carry out turbidimetric assay, whole analytic process only needs a few minutes, and the method compares its sensitivity with traditional immunization turbidimetry higher.
Carrying out in latex enhancing immune turbidimetry process, needing antibody (or antigen) and microballoon to combine.Combination can be divided into two large classes: physisorption or covalent coupling.Wherein physisorption be by the hydrophobic grouping of the hydrophobic grouping on protein molecular structure and microsphere surface between interaction, antigen or antibody are adsorbed onto microsphere surface.E is reacted by the chemical group of protein and microsphere surface, by protein covalent coupling on microballoon.
E, due to features such as good, the easy preservation of specificity, favorable dispersibilities, has now been widely used in external diagnosis reagent.Visible polytype microballoon on the market, wherein the most commonly polystyrene latex particles.A lot of latex particle surface includes but not limited to carboxyl, amino, hydrazides, aldehyde radical, epoxy radicals, sulfydryl, hydroxyl, Metal Substrate, silicone hydroxyl with chemical group.These groups, through suitable reaction, can various biomolecule on covalent coupling.Wherein, Carboxylated latex particles can adopt multiple strategy to activate, and produces the reactive intermediate that coupling can occur with the nucleophilic group (as amino) in protein.
So far, the method that water-soluble carbodiimide (EDC, 1-ethyl-(3-dimethylaminopropyl) carbodiimide) mediates for protein and other are coupled to modal response strategy on Carboxylated latex particles containing amino molecule.The method can be undertaken by two kinds of patterns: single stage method; Or two-step approach.
In single stage method, EDC is directly added in protein and microballoon mixed liquor, and Carboxylated latex particles is activated by water-soluble EDC and produces intermediate ester, and intermediate ester can react by the amino directly and on albumen.
In two-step approach, first activate latex particle with EDC, then add N-hydroxy-succinamide (NHS) further or N-hydroxy thiosuccinimide (Sulfo-NHS) generates another secondary intermediate ester (NHS-ester or Sulfo-NHS ester).Compare with the intermediate ester of single stage method, NHS-ester or Sulfo-NHS ester structurally more stable.Therefore, the output of two-step approach usually higher (Greg T.Hermanson.Bioconjugate Techniques.Academic Press, 2010).
In coupling process, owing to most protein having a lot of amino (as lysine, arginine residues) and carboxyl (as serine, threonine residues) simultaneously, oneself's polymerization is there is between the easy mediating protein of excessive EDC, two-step approach can overcome this defect, but because step is various, not only increase time cost, enterprise also has to write more SOP file (working specification file), have to introduce more Quality Control Links.Obviously, from the angle of modern large-scale production, two-step approach is not a kind of cost-effective mode.
Comparatively speaking, the step simple and fast of single stage method, is more suitable for large-scale production.But self-polymerism can be relatively serious, and this result in raw-material waste undoubtedly, cost increases.Further, the reagent blank value prepared is higher, can imagine this blank detectability that will certainly damage product and sensitivity.In addition, reagent prepared by traditional single stage method is linearly poor when surveying and mapping standard curve, thus finally has influence on the measured value of sample to be tested.Therefore, this area still needs an a kind of step coupling method of improvement.
Summary of the invention
Inventor, by when to only have in two-step approach the NHS just used to be incorporated in the middle of single stage method, finds unexpectedly, reagent prepared by this method not only blank low, linearly also significantly improve.Further, Sulfo-NHS shows more superior effect than NHS.
Therefore, according to an aspect of the present invention, provide a kind of coupling method that will be coupled to containing amino molecule covalent on microballoon, it comprises step:
1) microballoon is provided;
2) provide containing amino molecule;
3) by microballoon with even containing amino molecular mixing, obtain microballoon and the potpourri containing amino molecule;
4) step 3 is made) potpourri contacts carbodiimide and N-hydroxy-succinamide simultaneously, carries out covalent coupling reaction;
5) microballoon that coupling has the molecule containing amino is gathered in the crops,
Wherein said step 1) and step 2) order be interchangeable.
In some embodiments, described microballoon is the polystyrene latex particles of carboxyl modified.
The present invention's microballoon used can be any suitable commercially available microballoon, and such as BangsLaboratories, Sigma, Roche, Gibco, Merck, Amresco, Invitrogen, Millipore etc. supply the polystyrene latex particles of carboxyl modified that commercial city provides various model, specification.It will be understood by those skilled in the art that the polystyrene latex particles of the carboxyl modified prepared voluntarily also may be used for implementing the present invention.
In some embodiments, described microsphere diameter is 80nm to 250nm.But, it will be understood by those skilled in the art that enforcement of the present invention and do not rely on the size of microballoon, as long as its finishing has carboxylic group just to may be used for implementing the present invention.Microballoon supplier provides the microballoon of various different size, and at latex enhancing immune than in the middle of turbid detection field, common microballoon is of a size of 80nm to 250nm.In a concrete embodiment, microsphere diameter used is 150 or 200nm.
In some embodiments, the described molecule containing amino is selected from polypeptide or protein.But, it will be understood by those skilled in the art that in coupling process, produce after carboxyl microballoon is activated and with nucleophilic group (as amino), the reactive intermediate of coupling can occur.Given this, in theory, any molecule containing amino can be covalently coupled on carboxyl microballoon by the method for the application.In the middle of the field that immunoturbidimetry detects, common way is coupled on microballoon protein or polypeptide, so that detect the testing molecule in sample whereby.Described protein or polypeptide include but not limited to antigen, antibody, enzyme, part, acceptor.In an embodiment, by antibody coupling on microballoon.In an embodiment, polypeptide is coupled on microballoon.
In some embodiments, step 1) can conventionally in single stage method operation carry out.Such as, be suspended in suitable damping fluid by microballoon and provide microballoon, the method also can recommended according to microballoon supplier provides microballoon.Available damping fluid includes, but not limited to the combination of MES damping fluid, PBS damping fluid, HEPES damping fluid, MOPS damping fluid or above-mentioned damping fluid.PH of buffer can within the scope of pH 5-8.Should be appreciated that those skilled in the art can determine buffer type and pH scope thereof voluntarily according to the type of latex particle, also can adopt the damping fluid that microballoon supplier recommends.In a concrete embodiment, microballoon is suspended in the damping fluid of MES pH value of solution 6-7 and microballoon is provided.
In some embodiments, step 2) can conventionally in single stage method operation carry out.Such as, amino molecular melting will be contained in suitable damping fluid.In an embodiment, antibody is dissolved in the PBS damping fluid of pH7.4 the molecule provided containing amino.But be to be understood that the method for the application is not limited to this, available damping fluid includes, but not limited to the combination of MES damping fluid, PBS damping fluid, HEPES damping fluid, MOPS damping fluid or above-mentioned damping fluid.PH of buffer can within the scope of pH 5-8.Should be appreciated that those skilled in the art can according to treating that the molecule of coupling determines suitable buffer type and pH scope thereof voluntarily.
In some embodiments, make microballoon contact carbodiimide and N-hydroxy-succinamide with the potpourri containing amino molecule simultaneously, carry out covalent coupling reaction.Tradition single stage method only adopts a kind of compound of carbodiimide as coupling agent.Compare with traditional single stage method, the method for the application also introduces N-hydroxy-succinamide simultaneously.N-hydroxy-succinamide just can be used in the middle of two-step approach.In two-step approach, carbodiimide and N-hydroxy-succinamide are separated from each other, and is successively added in reaction system.Different from two-step approach, simultaneously the method for the application makes microballoon contact carbodiimide and N-hydroxy-succinamide with the potpourri containing amino molecule.
In some embodiments, carbodiimide and N-hydroxy-succinamide are formulated in same solution, add reaction system.
In some embodiments, step 4) N-hydroxy-succinamide can replace with N-hydroxy thiosuccinimide.Be not limited to this theory, N-hydroxy thiosuccinimide can be thought than N-hydroxy-succinamide with more negative charge, this contributes between microballoon, give more electrostatic repulsion forces, thus during coupling, for longer periods keep the suspension of polymeric microspheres stabilize, this further improves the phenomenon of oneself's polymerization.
In some embodiments, coupling reaction can be carried out under traditional single stage method coupling reaction condition; Also the reaction conditions can recommended according to microballoon supplier carries out; Also can according to treating that the known coupling reaction condition of coupling molecule is carried out.Whether those skilled in the art can determine suitable reaction vessel, temperature of reaction, reaction time, stir and stirring rate according to production scale, microballoon specification, character containing amino molecule.For some protein, need to carry out under the temperature of reaction of 2-8 degree Celsius; For some protein, can carry out at than the temperature of wider range, such as 2-40 degree Celsius.Reaction time can be 0.5-5 hour, preferred 1-4 hour, more preferably 2-3 hour.Usual raising stirring rate contributes to the carrying out reacted, but too fast stirring rate, because mechanical force can destroy the activity of protein.Therefore, those skilled in the art can determine whether the speed of stirring and stirring voluntarily.
In a concrete embodiment, coupling reaction is carried out under room temperature (20-25 degree Celsius), gentle agitation, continues 2-3 hour.
In some embodiments, the microballoon through coupling can conventionally be gathered in the crops.Such as, centrifugal, filtration, precipitation etc.
In a concrete embodiment, by the centrifugal microballoon gathered in the crops through coupling.
According to another aspect of the present invention, the invention provides the microballoon that a kind of coupling prepared by said method has the molecule containing amino.
In a concrete embodiment, the invention provides the polystyrene latex particles that a kind of coupling has the carboxyl modified of anti-Cys-C antibody.
In another particular embodiment of the invention, the invention provides the polystyrene latex particles that a kind of coupling has the carboxyl modified of streptolysin O.
According to another aspect of the present invention, the invention provides a kind of latex enhancing immune than turbid reagent, it contains the microballoon that above-mentioned coupling has the molecule containing amino.
In a concrete embodiment, the invention provides a kind of Cys-C latex enhancing immune than turbid reagent, it contains the polystyrene latex particles that coupling has the carboxyl modified of anti-Cys-C antibody.
In another particular embodiment of the invention, the invention provides a kind of latex enhancing immune of antistreptolysin O (ASO) than turbid reagent, it contains the polystyrene latex particles that coupling has the carboxyl modified of streptolysin O.
According to a further aspect of the invention, the invention provides a kind of latex enhancing immune than turbid kit, described kit contains above-mentioned coupling to be had the microballoon of the molecule containing amino or contains above-mentioned latex enhancing immune than turbid reagent.
In some embodiments, the invention provides a kind of latex enhancing immune than turbid kit, it can be single reagent form or many dosage form.
In the embodiment that some are concrete, the invention provides a kind of Cys-C latex enhancing immune than turbid kit, it is double reagent form.Described kit contains the first reagent and the second reagent.Wherein the first reagent contains damping fluid, salt, polymer, surfactant, optionally can also contain stabilizing agent and/or antiseptic as required.Wherein the second reagent contains polystyrene latex particles and the damping fluid that coupling has the carboxyl modified of anti-Cys-C antibody, optionally can also contain salt, polymer, surfactant, stabilizing agent and/or antiseptic as required.
Wherein said surfactant is non-ionic surfactant.Described antiseptic be selected from potassium sorbate, Sodium Benzoate, Sodium azide, sodium nitrite, PC300 one or more.Described polymer be selected from PEG series, PVP series one or more.Wherein said non-ionic surfactant be selected from TWEEN series, SPAN series, TRITON serial in one or more.
According to a further aspect of the invention, the coupling that the invention provides prepared by said method has the microballoon containing amino molecule preparing the purposes in diagnostic reagent.
Accompanying drawing explanation
Fig. 1: the typical curve that the Cys-C latex enhancing immune prepared by traditional single stage method is drawn than turbid reagent.
Fig. 2: the typical curve drawn than turbid reagent with Cys-C latex enhancing immune prepared by method of the present invention (adding Sulfo-NHS).
Fig. 3: the typical curve that the antistreptolysin O (ASO) latex enhancing immune prepared by traditional single stage method is drawn than turbid reagent.
Fig. 4: the typical curve drawn than turbid reagent with antistreptolysin O (ASO) latex enhancing immune prepared by method of the present invention (adding NHS).
Embodiment
In order to make easy to understand of the present invention, set forth the present invention further below in conjunction with specific embodiment.Unless otherwise, " % " represents mass/volume.
The following provide the concrete material and source thereof that use in embodiment of the present invention.But should be understood that, these are only exemplary, be not intended to limit the present invention, all may be used for implementing the present invention with the type of following reagent and instrument, model, quality, character or the same or analogous material of function.
Following examples are tested for anti-Cys-C antibody and streptolysin O, but it will be appreciated by those skilled in the art that other polypeptide, protein etc. can be used to implement the present invention containing amino molecule equally.
Term
In the context of the present invention, " polypeptide " refers to that a-amino acid is linked together by peptide chain and the compound that formed, usually containing being made up of 2-50 amino acid.
In the context of the present invention, " protein " refers to that a-amino acid is linked together by peptide chain and formed, combined and the macromolecular compound that formed according to ad hoc fashion by one or more than one polypeptied chain, the peptide be usually made up of the amino acid of more than 50 is called protein again.
In the context of the present invention, " polystyrene latex particles " refers to styrene to be the polymkeric substance of monomer polymerization; The size of latex particle, different and different with the ratio of each material in polymerization, can synthesize according to different purposes, diameter is not from tens nanometers to several microns etc.; Common latex particle mostly is finishing, because this type of particle can be widely used in many fields (as biological chemistry, medical science, pharmacy, chromatographic column filler and clinical examination etc.), these modification groups are carboxyl, hydroxyl, amino, vinyl, azo group, hydrazides, aldehyde radical, epoxy radicals, sulfydryl, Metal Substrate, silicone hydroxyl etc. such as.
Material and instrument
Embodiment 1: the anti-Cys-C antibody of traditional single stage method coupling
1) 100 μ L 10% latex particles (150nm) are got, add 2mL 10mM MES solution (pH6.1) mixing, 15, the centrifugal 50min of 000rpm, after abandoning supernatant, add 2mL 10mM MES solution (pH6.1) aspirator repeatedly aspirate make latex particle disperse mixing, latex particle concentration is 0.5%.
2) get the anti-human Cys-C antibody of rabbit that 4.5 μ L concentration are 22mg/mL, be diluted to 100 μ L with the PBS damping fluid of pH7.4, mixing.
3) by step 1) microspheres solution and the 40 μ L steps 2 that obtain) the anti-Cys-C antibody-solutions that obtains mixes, is placed in magnetic stirring apparatus to add rotor and stir 15min and make both fully mixings.
4) accurately take 0.0050g EDC and be dissolved in the EDC obtaining 5mg/mL in 1mL deionized water, get in the latex particle and anti-Cys-C antibody mixed solution that 25 μ L are added to mixing, at room temperature, Keep agitation reaction 3h.
5) after reaction terminates, by reactant liquor at the centrifugal 40min of 15,000rpm, abandon supernatant, obtain the latex particle that coupling has anti-Cys-C antibody.
Embodiment 2: the inventive method (adopting Sulfo-NHS) the anti-Cys-C antibody of coupling
1) 100 μ L 10% latex particles (150nm) are got, add 2mL 10mM MES solution (pH6.1) mixing, 15, the centrifugal 50min of 000rpm, after abandoning supernatant, add 2mL 10mM MES solution (pH6.1) aspirator repeatedly aspirate make latex particle disperse mixing, latex particle concentration is 0.5%.
2) get the anti-human Cys-C antibody of rabbit that 4.5 μ L concentration are 22mg/mL, be diluted to 100 μ L with the PBS damping fluid of pH7.4, mixing.
3) by step 1) microspheres solution and the 40 μ L steps 2 that obtain) the anti-Cys-C antibody-solutions that obtains mixes, is placed in magnetic stirring apparatus to add rotor and stir 15min and make both fully mixings.
4) get in the latex particle and anti-Cys-C antibody mixed solution that 25 μ LEDC (5mg/mL) are added to mixing together with 25 μ LSulfo-NHS (50mg/mL) simultaneously, at room temperature, Keep agitation reaction 3h.
5) after reaction terminates, by reactant liquor at the centrifugal 40min of 15,000rpm, abandon supernatant, obtain the latex particle that coupling has anti-Cys-C antibody.
The preparation of embodiment 3:Cys-C reagent
The latex particle that Example 1 (or 2) is gathered in the crops adds 2mL 0.01M PBS (pH7.4) ultrasonic disperse and cleans; 15,000rpm is centrifugal, and 40min abandons supernatant; Add 5mL 0.1M glycine buffer (containing 0.5%BSA, 0.05%NaN
3, pH 8.4) ultrasonic disperse obtain concentration be the latex particle of 0.2%; After magnetic agitation 30min, be placed in 2-8 DEG C and store until use.
Fill a prescription as follows:
0.1M glycine buffer pH8.4;
0.5%BSA;
0.2% coupling has the microballoon of anti-Cys-C antibody;
0.05%NaN
3。
The preparation of embodiment 4:Cys-C diagnostic kit
According to following formula preparation Cys-C diagnostic kit:
First reagent R1:
0.1M glycine buffer pH8.4;
0.8%NaCl:
0.5%PEG-6000:
0.05%Tween-20;
0.05%NaN
3。
Second reagent R2: Cys-C reagent embodiment 3 prepared is as the second reagent R2.
Respectively the first reagent and the second reagent are placed in suitable container, such as, when for automatic clinical chemistry analyzer, the first reagent and the second reagent can be placed in instrument bottle.
Embodiment 5: drawing standard curve
Diagnostic reagent prepared by embodiment 4 is loaded on Toshiba-40 Biochemical Analyzer, to Cys-C standard items (0.5,1,2,4,8mg/L) detect according to following parameter, and drawing standard curve:
Detecting pattern: Two point end assay;
Predominant wavelength/commplementary wave length: 546nm/700nm;
Read point: 60-62/34-36;
The Direction of Reaction: forward;
Type of calibration: Spline;
Sample size: 2.1 μ L;
R1/R2:175μL/35μL。
Embodiment 6: experimental result
1. the reagent prepared with the microballoon that traditional single stage method obtains the results are shown in Table 1 and Fig. 1:
Table 1.Cys-C standard items measured value (repeating the average of testing for three times)
| Standard concentration | ΔA | A (main-secondary) | A (master) |
| 0 | 0.0029 | 0.3328 | 0.6151 |
| 0.5 | 0.0256 | 0.3507 | 0.6585 |
| 1 | 0.0494 | 0.3847 | 0.7392 |
| 2 | 0.0815 | 0.4330 | 0.8655 |
| 4 | 0.1084 | 0.4857 | 1.0115 |
| 8 | 0.1169 | 0.5113 | 1.1024 |
Adopt said determination value Criterion curvilinear equation, linear equation and related coefficient are:
Y=0.0133X+0.0298,r
2=0.7591
In 3 hours period of embodiment 1 coupling reaction, arrived the phenomenon of self-polymerization at later observations, particle stably can not be in suspension, has precipitation visible.
2. the result of the reagent prepared with the microballoon that the inventive method (adding Sulfo-NHS) obtains is as shown in table 2 and Fig. 2:
Table 2.Cys-C standard items measured value (repeating the average of testing for three times)
| Standard concentration | ΔA | A (main-secondary) | A (master) |
| 0 | -0.0033 | 0.2883 | 0.5161 |
| 0.5 | 0.0024 | 0.3008 | 0.5497 |
| 1 | 0.0086 | 0.3127 | 0.5805 |
| 2 | 0.0281 | 0.3483 | 0.6652 |
| 4 | 0.0723 | 0.4205 | 0.8519 |
| 8 | 0.1099 | 0.4963 | 1.0747 |
Adopt said determination value Criterion curvilinear equation, linear equation and related coefficient are:
Y=0.0148X-0.002,r
2=0.9709
In 3 hours period of embodiment 2 coupling reaction, the omnidistance phenomenon all not observing oneself's polymerization, is in suspension particle stabilizedly.And applicant also attempt the reaction time to extend to the longer time such as 4 hours time, still can keep suspension, have no the gathering of latex particle.
Theoretically, desirable linear equation should be through initial point.By relatively more visible, as X=0, Y=0.0298 (classic method), Y=-0.002 (the inventive method); As Y=0, X=-2.24 (classic method), X=0.135 (the inventive method).This means that the point of crossing of the linear equation that method of the present invention obtains and coordinate axis is more near initial point.
Further, method of the present invention has better linearly dependent coefficient r
2=0.9709 (and the linearly dependent coefficient of classic method is only 0.7591).Technician knows, r
2more stronger close to 1 correlativity.The visible this excellent application requirement that linearly can meet clinical examination completely.
Embodiment 7: traditional single stage method coupling streptolysin O
1) 100 μ L 10% latex particles (200nm) are got, add 2mL 10mM MES solution (pH6.1) mixing, 15, the centrifugal 50min of 000rpm, after abandoning supernatant, add 2mL 10mM MES solution (pH6.1) aspirator repeatedly aspirate make latex particle disperse mixing, latex particle concentration is 0.5%.
2) getting 1mg streptolysin O is dissolved in the PBS damping fluid of 1ml pH7.4, mixing.
3) by step 1) microspheres solution and the 40 μ L steps 2 that obtain) the streptolysin O solution that obtains mixes, is placed in magnetic stirring apparatus to add rotor and stir 15min and make both fully mixings.
4) get in the latex particle and streptolysin O mixed solution that 25 μ LEDC (5mg/mL) are added to mixing, at room temperature, Keep agitation reaction 2h.
5) after reaction terminates, by reactant liquor at the centrifugal 40min of 15,000rpm, abandon supernatant, obtain the latex particle that coupling has streptolysin O.
Embodiment 8: the inventive method (adopting NHS) coupling streptolysin O
1) 100 μ L 10% latex particles (200nm) are got, add 2mL 10mM MES solution (pH6.1) mixing, 15, the centrifugal 50min of 000rpm, after abandoning supernatant, add 2mL 10mM MES solution (pH6.1) aspirator repeatedly aspirate make latex particle disperse mixing, latex particle concentration is 0.5%.
2) getting 1mg streptolysin O is dissolved in the PBS damping fluid of 1ml pH7.4, mixing.
3) by step 1) microspheres solution and the 40 μ L steps 2 that obtain) the streptolysin O solution that obtains mixes, is placed in magnetic stirring apparatus to add rotor and stir 15min and make both fully mixings.
4) get in the latex particle and streptolysin O mixed solution that 25 μ L EDC (5mg/mL) are added to mixing together with 25 μ LNHS (20mg/mL) simultaneously, at room temperature, Keep agitation reaction 2h.
5) after reaction terminates, by reactant liquor at the centrifugal 40min of 15,000rpm, abandon supernatant, obtain the latex particle that coupling has streptolysin O.
Embodiment 9: the preparation of Streptolysin O Test
The latex particle that Example 7 (or 8) is gathered in the crops adds 2mL 0.01M PBS (pH7.4) ultrasonic disperse and cleans; Centrifugally abandon supernatant; Add 5mL 0.1M pH8.4 glycine buffer (containing 0.5%BSA, 0.1%NaN
3) ultrasonic disperse obtain concentration be the latex particle of 0.2%; After magnetic agitation 30min, be placed in 2-8 DEG C and store until use.
Fill a prescription as follows:
0.1M pH8.4 glycine buffer;
0.5%BSA:
0.1%NaN
3;
0.2% coupling has the microballoon of streptolysin O.
Embodiment 10: the preparation of antistreptolysin O (ASO) diagnostic kit
Antistreptolysin O (ASO) diagnostic kit is prepared according to following formula:
First reagent R1:
0.1M pH8.4 glycine buffer;
300mM NaCl:
0.1%Tween 20;
1%PEG6000;
0.1%NaN
3。
Second reagent R2: Streptolysin O Test embodiment 9 prepared is as the second reagent R2.Respectively the first reagent and the second reagent are placed in suitable container, such as, when for automatic clinical chemistry analyzer, the first reagent and the second reagent can be placed in the bottle of instrument.
Embodiment 11: drawing standard curve
Diagnostic reagent prepared by embodiment 10 is loaded on Toshiba-40 Biochemical Analyzer, to streptolysin O standard items (50,100,200,400,800IU/mL) detect according to following parameter, and drawing standard curve:
Detecting pattern: Two point end assay;
Predominant wavelength/commplementary wave length: 570nm/700nm;
Read point: 48-50/34-36
The Direction of Reaction: just
Type of calibration: Spline;
Sample size: 3 μ L;
R1/R2:240μL/60μL。
Embodiment 12: experimental result
1. the result of the reagent prepared with the microballoon that traditional single stage method (embodiment 7) obtains, as shown in table 3 and Fig. 3:
Table 3. streptolysin O standard items measured value (repeating the average of testing for three times)
| Standard concentration | ΔA | A (main-secondary) | A (master) |
| 0 | 0.1893 | 0.4990 | 0.6679 |
| 50 | 0.2375 | 0.5234 | 0.7260 |
| 100 | 0.3350 | 0.5408 | 0.8137 |
| 200 | 0.4373 | 0.5659 | 0.9813 |
| 400 | 0.5046 | 0.6180 | 1.2906 |
| 800 | 0.5918 | 0.7255 | 1.3438 |
Adopt said determination value Criterion curvilinear equation, linear equation and related coefficient are:
Y=0.0005X+0.2597,r
2=0.8367
In 2 hours period of embodiment 7 coupling reaction, arrived the phenomenon of self-polymerization at later observations, particle stably can not be in suspension, has precipitation visible.
2. the result of the reagent prepared with the microballoon that the inventive method (embodiment 8) obtains is as shown in table 4 and Fig. 4:
Table 4. streptolysin O standard items measured value (repeating the average of testing for three times)
| Standard concentration | ΔA | A (main-secondary) | A (master) |
| 0 | -0.0018 | 0.4156 | 0.6613 |
| 50 | 0.0751 | 0.4490 | 0.7348 |
| 100 | 0.1263 | 0.4884 | 0.8283 |
| 200 | 0.2280 | 0.5594 | 0.9958 |
| 400 | 0.4544 | 0.6961 | 1.3348 |
| 800 | 0.6047 | 0.8137 | 1.5641 |
Adopt said determination value Criterion curvilinear equation, linear equation and related coefficient are:
Y=0.0008X+0.0515,r
2=0.9407
In 2 hours period of embodiment 8 coupling reaction, the omnidistance phenomenon all not observing oneself's polymerization, is in suspension particle stabilizedly.Applicant continues to attempt the reaction time to extend to such as 3-4 hour of longer time, starts to see fainter latex particle and assembles.Compare with the situation of embodiment 2, visible Sulfo-NHS is better than NHS for the effect of anti-oneself's polymerization.In any case but, add NHS and still than traditional coupling method, there is better anti-self-polymerization effect.
Method of the present invention has better linearly dependent coefficient r than classic method
2=0.9407.Technician knows, r
2more stronger close to 1 correlativity.The visible this excellent application requirement that linearly can meet clinical examination completely.
Claims (7)
1. the coupling method will be coupled to containing amino molecule covalent on microballoon, it comprises step:
1) microballoon is provided;
2) provide containing amino molecule;
3) by microballoon with even containing amino molecular mixing, obtain microballoon and the potpourri containing amino molecule;
4) step 3 is made) potpourri contacts carbodiimide and N-hydroxy thiosuccinimide simultaneously, carries out covalent coupling reaction;
5) microballoon that coupling has the molecule containing amino is gathered in the crops,
Wherein said step 1) and step 2) order be interchangeable,
Wherein said is polypeptide or protein containing amino molecule.
2. the coupling method that will be coupled to containing amino molecule covalent on microballoon according to claim 1, wherein said microballoon is the polystyrene latex particles of carboxyl modified.
3. the coupling method that will be coupled to containing amino molecule covalent on microballoon according to claim 1, wherein said microsphere diameter is 80nm to 250nm; Preferred 100-200nm.
4. coupling has the microballoon containing amino molecule, and it is prepared by the coupling method be coupled to by the molecule covalent containing amino on microballoon according to claim 1.
5. latex enhancing immune is than a turbid reagent, it is characterized in that described reagent contains the microballoon that coupling according to claim 4 has the molecule containing amino.
6. latex enhancing immune is than a turbid kit, it is characterized in that described kit contains coupling according to claim 4 and has the microballoon of the molecule containing amino or contain latex enhancing immune according to claim 5 than turbid reagent.
7. coupling according to claim 4 has the microballoon containing amino molecule preparing the purposes in diagnostic reagent.
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