CN109406667A - A kind of method and its detection kit for identifying dry syndrome biomarker - Google Patents
A kind of method and its detection kit for identifying dry syndrome biomarker Download PDFInfo
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- CN109406667A CN109406667A CN201811323892.3A CN201811323892A CN109406667A CN 109406667 A CN109406667 A CN 109406667A CN 201811323892 A CN201811323892 A CN 201811323892A CN 109406667 A CN109406667 A CN 109406667A
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Abstract
The present invention provides the methods and its detection kit of a kind of biomarker for identifying dry syndrome.The biomarker is the free mannose and glucose obtained in serum by high performance liquid chromatography derived from 1- phenyl -5- methylpyrazole quinoline ketone (PMP) before column.Detection method is high performance liquid chromatography derived from PMP before column.Technical solution of the present invention has pre-treatment simple, and analysis time is short, and instrument price is reasonable, meet conventional use, operating procedure is easy to learn, and testing result accuracy is high, the advantages that need to only take a blood sample can distinguish normal person and dry syndrome patient, and required serum amount is few, and blood sampling volume is less than 1mL.Acquired results show that this analysis method can have very important meaning for the relationship between research free serum mannose and glucose and dry syndrome, the novel dried syndrome clinical detection marker of searching with mannose and glucose free in fast quantification dry syndrome patients serum.
Description
Technical field
The invention belongs to pharmaceutical technology fields, and in particular to it is a kind of identify dry syndrome biomarker method and
Its detection kit.
Background technique
Dry syndrome is one kind to invade the exocrine glands such as lachrymal gland, salivary gland, with lymphocytic infiltration and specifically
The Diffuse Connective Tissue Disease that property autoantibody is characterized.
The Major Clinical correlation auxiliary examination of dry syndrome is blood, routine urinalysis and other routine inspections, autoantibody inspection
It looks into, lacrimal gland function inspection, Salivary Gland Function During Irradiation inspection, biopsy etc..Wherein most have diagnostic significance is autoantibody inspection, i.e., anti-
SSA, anti-SSB are checked.Anti- SSA, anti-SSB antibody positive rate are respectively 70% and 40%, all have certain false positive rate, and preceding
Person's sensibility is high, and the latter's specificity is stronger, and there is no a kind of biomarkers for taking into account sensibility and specificity.Therefore, it finds
A kind of convenience, detection method that is noninvasive and can taking into account sensibility and specificity are very necessary.Optimal early detection method is just
It is the blood analysis inspection for not needing to carry out biopsy.
The content highest of glucose in human serum free monosaccharide, the range of normal person are 3.90~6.16mmol/L.Mesh
Before, hospital laboratory directly can detect concentration of glucose by surveying biochemical indicator, and it is dense temporarily cannot directly to detect mannose
Degree.The concentration range of free mannose is 20~80 μm of ol/L in health adult's blood plasma.The content of mannose is about that glucose contains
The 1% of amount.Its major part is considered as from the glucose isomerization in cell.And some researches show that flow in cell recently
Free mannose out is the main source of free mannose in mammalian.The free mannose in this two parts source
Maintain the stabilization of mannose in serum.D-MANNOSE is glycoprotein, cell surface glycoconjugates and glycolsyl-phosphatidylinositol
Required monosaccharide in the structures such as anchorin.Wherein, mannose is the important component of N- sugar chain in various polysaccharide compounds, and N- is poly-
Glucose or mannose of the mannose residue in blood in sugar.Free mannose is normal plasma composition.Currently,
The measuring method of serum mannose mainly has enzyme process, gas-liquid chromatography, high resolution liquid chromatography, gas-liquid chromatography-mass spectrography and hair
Cons electrophoresis method etc..But there is certain shortcoming in these methods.For example, using enzyme process, gas-liquid chromatography and high-resolution
When liquid chromatography, to avoid the influence needs of glucose of high concentration from removing it, cause pretreatment process comparatively laborious;Gas-liquid
Chromatography mass spectrometry instrument price is expensive, is not suitable for routine purpose;Required serum sample amount is big.Before document report column
High performance liquid chromatography derived from 1- phenyl -5- methylpyrazole quinoline ketone (PMP) detects dry syndrome patients serum middle reaches simultaneously
From mannose and glucose.
Summary of the invention
The object of the present invention is to provide for identifying biomarker and its application of dry syndrome, the present invention is used
Monosaccharide more particularly to serum before column in high performance liquid chromatography derived from PMP (HPLC) detection dry syndrome patients serum
In dissociate mannose and glucose detection.Technical solution of the present invention can be used for detecting dry syndrome patient or normal person
Free serum mannose and concentration of glucose can be used for identifying dry syndrome patient.
To achieve the purpose of the present invention, the present invention is achieved by the following technical programs:
For identifying that the biomarker of dry syndrome, the biomarker are serum by derived from PMP before column
The free mannose and glucose that high performance liquid chromatography obtains.
For identifying the quantitative analysis method of the biomarker of dry syndrome, it is characterised in that: this method is before column
High performance liquid chromatography derived from PMP, comprising the following specific steps
(1) adjusting pH is 7-14: taking blood serum sample to be detected to add ultrapure water in EP pipe, sodium hydroxide is added, be vortexed
It mixes;
(2) PMP is derivative: PMP is added in each sample, is vortexed and mixes, and centrifugation is placed on baking oven reaction;
(3) acid adding neutralization reaction: the sample in baking oven is taken out, and places cooling, and hydrochloric acid is added in each sample, is vortexed mixed
It is even;
(4) extract: organic solvent is added in every pipe, is vortexed, and centrifugation removes lower layer's organic solvent, retains supernatant;
(5) sample is centrifuged, takes supernatant in sample bottle, covering tightly lid in the brown equipped with interpolation pipe, is centrifuged, is ready to use in
High-efficient liquid phase analysis;
(6) standard curve of mannose and glucose is drawn;
(7) standard curve in the chromatogram for obtaining step (5) and step (6) compares simultaneously analytical calculation, determines sweet dew
The ratio of sugar, the concentration of glucose and glucose and mannose concentration.
The high performance liquid chromatography is 1260 efficient liquid phase system of Agilent, Agilent Poroshell EC-C18 color
It composes column (4.6mm × 100mm, 2.7 μm), the chromatographic condition in the step (5) are as follows:
Detection wavelength: 254nm, bandwidth 4nm;
Reference wavelength: 350nm, bandwidth 100nm;
Column temperature: 37 DEG C;
Flow velocity: 1mL/min;
Sampling volume: 20 μ L;
Mobile phase: A phase is acetonitrile, and B phase is 0.1mol/L ammonium acetate-acetic acid buffer solution that pH is 5.5.
The change of gradient of mobile phase in the step (5) are as follows:
0min, A phase 15%, B phase 85%;
10min, A phase 22%, B phase 78%;
15min, A phase 24%, B phase 76%;
15.1min, A phase 15%, B phase 85%;
20min, A phase 15%, B phase 85%.
The concentration of hydrochloric acid is 0.3mol/L in the step (3).
Organic solvent is at least one in chloroform, methylene chloride, ethyl acetate and n-hexane in the step (4)
Kind.
Biomarker is preparing the purposes in the kit for detecting dry syndrome, it is characterised in that: the examination
It include the titer for the glucose that concentration is 53.33 μm of ol/L mannoses and concentration is 4639 μm of ol/L in agent box.
A kind of kit for identifying dry syndrome, which is characterized in that the kit contains biomarker, i.e. serum passes through
Cross the free mannose and glucose that high performance liquid chromatography derived from PMP obtains before column.
It include the mark for the glucose that concentration is 53.33 μm of ol/L mannoses and concentration is 4639 μm of ol/L in the kit
Quasi- liquid.
Identify that the kit of dry syndrome is preparing the purposes in the kit for detecting dry syndrome.
Compared with prior art, high performance liquid chromatography derived from PMP before column is used for dry syndrome patient by the present invention
The detection of free serum monosaccharide, advantageous effects are:
1, pre-treatment is simple.
2, analysis time is short.
3, required amount of serum is few, simply needs to be less than the blood volume of 1mL every time.
4, instrument price is reasonable, meets conventional use.
5, operating procedure is easy to learn.
6, detection is accurate.
The present invention uses hplc simultaneous determination free serum mannose and glucose derived from PMP before column,
Simplify operation, and amount of serum is few, and the measurement for having proven to the method mannose concentration will not be by high concentration glucose
Influence.Pass through the statistics of the ratio (G/M ratio) to free serum mannose, glucose and glucose and mannose concentration
Data analysis, establishes the relationship between dry syndrome and three.It can quickly be distinguished just using technical solution of the present invention
Ordinary person and dry syndrome patient.
Detailed description of the invention
Fig. 1 is two types column chromatography figure;
Fig. 2 is the chromatogram of different eluent gradients;
Fig. 3 is dry syndrome patient and the free mannose of normal human serum, glucose and glucose and mannose concentration
Ratio scatter plot;
Fig. 4 is the ROC curve of dry syndrome patients serum free mannose and glucose;
Fig. 5 is normal person and the free mannose of dry syndrome patients serum, glucose and glucose and mannose concentration
Ratio building 3 dimensional drawing.
Specific embodiment
Technical solution of the present invention is further described in detail in the following with reference to the drawings and specific embodiments.
All blood samples involved in embodiment are provided by affiliated hospital, University Of Qingdao, Qingdao City.
Technical solution of the present invention the following steps are included:
Embodiment 1
(1) precision weighs mannose (Man), gucosamine (GlcN), galactosamine (GalN), glucuronic acid
(GlcUA), glucose (Glc), galactolipin (Gal), xylose (Xyl), fucose (Fuc) in right amount, add deionized water to prepare two parts
Containing the above monosaccharide 0.1mg/mL hybrid standard product solution, matching while using;
(2) it creates alkaline environment: taking 40 μ L mixing monosaccharide standard to manage in 1.5mL EP, 40 μ L 0.3mol/L hydrogen are added
Sodium oxide molybdena is vortexed and mixes;
(3) PMP is derivative: 60 μ L 0.5mol/L 1- phenyl -5- methylpyrazole quinoline ketone (PMP) are added in each sample, are vortexed
It mixes, 70 DEG C of baking ovens react 1h after centrifugation;
(4) acid adding neutralization reaction: the sample in baking oven is taken out, and places cooling, and 40 μ L 0.3mol/L are added in each sample
Hydrochloric acid is vortexed and mixes;
(5) extract: 500 μ L chloroforms are added in every pipe, are vortexed, and centrifugation removes lower layer's chloroform, retain supernatant, weight
It is 3 times multiple;
(6) sample 13000r/min is centrifuged 10min, takes 80 μ L supernatants in the brown loading that 150 μ L interpolation pipes are housed
In bottle, lid is covered tightly, is centrifuged, two parts of samples carry out high-efficient liquid phase analysis, efficient liquid phase using different chromatographic column A and B respectively
Chromatography is 1260 efficient liquid phase system of Agilent, and gained chromatogram is shown in Fig. 1.
Chromatographic column A:Agilent Poroshell EC-C18 chromatographic column (4.6mm × 100mm, 2.7 μm);
Agilent Poroshell EC-C18 chromatographic column (4.6mm × 100mm, 2.7 μm) chromatographic condition:
Detection wavelength: 254nm, bandwidth 4nm;
Reference wavelength: 350nn, bandwidth 100nm;
Column temperature: 37 DEG C;
Flow velocity: 1mL/min;
Sampling volume: 20 μ L;
Mobile phase: 0.1mol/L ammonium acetate-acetic acid buffer solution, acetonitrile;
Change of gradient:
Time | Acetonitrile | 0.1mol/L ammonium acetate pH 5.5 |
0min | 15% | 85% |
10min | 22% | 78% |
15min | 24% | 76% |
15.1min | 15% | 85% |
20min | 15% | 85% |
Chromatographic column B:Agilent ZORBAX XDB-C18 chromatographic column (4.6mm × 150mm, 5 μm);
Agilent ZORBAX XDB-C18 chromatographic column (4.6mm × 150mm, 5 μm) chromatographic condition:
Detection wavelength: 254nm, bandwidth 4nm;
Reference wavelength: 350nm, bandwidth 100nm;
Column temperature: 37 DEG C;
Flow velocity: 1mL/min;
Sampling volume: 20 μ L;
Mobile phase: 0.1mol/L ammonium acetate-acetic acid buffer solution, acetonitrile;
Change of gradient:
Time | Acetonitrile | 0.1mol/L ammonium acetate pH 5.5 |
0min | 15% | 85% |
40min | 22% | 78% |
40.1min | 15% | 85% |
55min | 15% | 85% |
It will be seen from figure 1 that the AgilentZORBAXXDB-C18 chromatogram column analysis time is long, chromatographic peak separating degree is poor,
The Agilent Poroshell EC-C18 chromatogram column analysis time is the 1/3 of ZORBAX XDB-C18 chromatographic column, and chromatographic peak is good.
Abscissa is time (min), and ordinate is DAD signal strength.1,2,3,4,5,6,7,8 successively Man, GlcN, GalN, GlcUA,
The chromatographic peak of Glc, Gal, Xyl, Fuc.
Embodiment 2
(1) precision weighs mannose (Man), rhamnose (Rha) and glucose (Glc) in right amount, and deionized water is added to prepare phase
Same 5 parts contain the above monosaccharide 0.1mg/mL hybrid standard product solution, matching while using;
(2) it creates alkaline environment: taking 40 μ L mixing monosaccharide standard to manage in 1.5mL EP, 40 μ L 0.3mol/L hydrogen are added
Sodium oxide molybdena is vortexed and mixes;
(3) PMP is derivative: 60 μ L 0.5mol/L PMP are added in each sample, are vortexed and mix, 70 DEG C of baking oven reactions after centrifugation
1h;
(4) acid adding neutralization reaction: the sample in baking oven is taken out, and places cooling, and 40 μ L 0.3mol/L are added in each sample
Hydrochloric acid is vortexed and mixes;
(5) extract: 500 μ L chloroforms are added in every pipe, are vortexed, and centrifugation removes lower layer's chloroform, retain supernatant, weight
It is 3 times multiple;
(6) sample 13000r/min is centrifuged 10min, takes 80 μ L supernatants in the brown loading that 150 μ L interpolation pipes are housed
In bottle, lid is covered tightly, is centrifuged, 5 parts of samples are used for high-efficient liquid phase analysis, gained chromatography under different mobile phase variable gradients respectively
Figure, is shown in Fig. 2.
High performance liquid chromatography is 1260 efficient liquid phase system of Agilent, Agilent Poroshell EC-C18 chromatographic column
(4.6mm × 100mm, 2.7 μm);
Chromatographic condition:
Detection wavelength: 254nm, bandwidth 4nm;
Reference wavelength: 350nm, bandwidth 100nm;
Column temperature: 37 DEG C;
Flow velocity: 1mL/min;
Sampling volume: 20 μ L;
Mobile phase: 0.1mol/L ammonium acetate-acetic acid buffer solution, acetonitrile;
Mobile phase variable gradient A:
Time | Acetonitrile | 0.1mol/L ammonium acetate pH5.5 |
0min | 15% | 85% |
20min | 15% | 85% |
Mobile phase variable gradient B:
Time | Acetonitrile | 0.1mol/L ammonium acetate pH5.5 |
0min | 20% | 80% |
20min | 20% | 80% |
Mobile phase variable gradient C:
Time | Acetonitrile | 0.1mol/L ammonium acetate pH5.5 |
0min | 22% | 78% |
20min | 22% | 78% |
Mobile phase variable gradient D:
Time | Acetonitrile | 0.1mol/L ammonium acetate pH5.5 |
0min | 15% | 85% |
10min | 22% | 78% |
15min | 15% | 85% |
20min | 15% | 85% |
Mobile phase variable gradient E:
Time | Acetonitrile | 0.1mol/L ammonium acetate pH5.5 |
0min | 15% | 85% |
10min | 22% | 78% |
15min | 24% | 76% |
15.1min | 15% | 85% |
20min | 15% | 85% |
Figure it is seen that only Man is eluted out under the conditions of gradient A;Under the conditions of gradient B, although three
Can be separated and, but the peak of solvent PMP and Man from it is relatively close;And under the conditions of gradient C, solvent peak and the peak Man weight
It closes;Under the conditions of gradient D, the overlong time that the peak Glc is eluted out leads to cannot to be formed point and high peak.Only in gradient E item
Under part, appearance is symmetrical, and separating degree is good.Abscissa is time (min), and ordinate is DAD signal strength.1,2 and 3 is successively
The chromatographic peak of Man, Rha and Glc.
Embodiment 3
(1) precision weighs mannose and proper amount of glucose, and deionized water is added to be configured to each 0.5mg/mL containing the above monosaccharide,
0.25mg/mL, 0.1mg/mL, 0.05mg/mL, 0.01mg/mL, 0.005mg/mL, 0.0025mg/mL, 0.001mg/mL,
The hybrid standard product solution of 0.0005mg/mL, matching while using;
(2) it creates alkaline environment: taking 40 μ L mixing monosaccharide standard to manage in 1.5mL EP, 40 μ L 0.3mol/L hydrogen are added
Sodium oxide molybdena is vortexed and mixes;
(3) PMP is derivative: 60 μ L 0.5mol/L PMP are added in each sample, are vortexed and mix, 70 DEG C of baking oven reactions after centrifugation
1h;
(4) acid adding neutralization reaction: the sample in baking oven is taken out, and places cooling, and 40 μ L 0.3mol/L are added in each sample
Hydrochloric acid is vortexed and mixes;
(5) extract: 500 μ L chloroforms are added in every pipe, are vortexed, and centrifugation removes lower layer's chloroform, retain supernatant, weight
It is 3 times multiple;
(6) sample 13000r/min is centrifuged 10min, takes 80 μ L supernatants in the brown loading that 150 μ L interpolation pipes are housed
In bottle, lid is covered tightly, is centrifuged, is ready to use in high-efficient liquid phase analysis.
High performance liquid chromatography is 1260 efficient liquid phase system of Agilent, Agilent Poroshell EC-C18 chromatographic column
(4.6mm × 100mm, 2.7 μm);
Chromatographic condition:
Detection wavelength: 254nm, bandwidth 4nm;
Reference wavelength: 350nm, bandwidth 100nm;
Column temperature: 37 DEG C;
Flow velocity: 1mL/min;
Sampling volume: 20 μ L;
Mobile phase: 0.1mol/L ammonium acetate-acetic acid buffer solution, acetonitrile;
Mobile phase variable gradient:
Time | Acetonitrile | 0.1mol/L ammonium acetate pH 5.5 |
0min | 15% | 85% |
10min | 22% | 78% |
15min | 24% | 76% |
15.1min | 15% | 85% |
20min | 15% | 85% |
(7) standard curve of mannose and glucose is drawn.
Embodiment 4
(1) it creates alkaline environment: 144 normal human sera samples and 144 dry syndromes made a definite diagnosis being taken to suffer from respectively
10 μ L of person's blood serum sample adds 30 μ L ultrapure waters in 1.5mL EP pipe, and 40 μ L 0.3mol/L sodium hydroxides are added, and is vortexed and mixes;
(2) for remaining step with embodiment 3, analytical calculation mannose, the concentration of glucose and glucose and mannose are dense
The ratio of degree.Statistic mixed-state is as a result, be shown in Fig. 3.
Fig. 3 result is summarized to Tables 1 and 2.
The comparable trend of table 1. dry syndrome patients serum free monosaccharide and G/M ratio and normal person
Glucose | Mannose | G/M ratio | |
Dry syndrome | ↓NS | ↑** | ↓*** |
Annotation: " NS " representative is compared with normal people that there was no significant difference, " * * * p < 0.001 ", " * * p < 0.01 " and " * p
< 0.05 ", which is respectively represented, has been compared with normal people significant difference, " ↑ " and " ↓ " respectively represent be compared with normal people rising or under
Drop.
2 kinds of free monosaccharide concentration (μm ol/L) and its ratio result in 2. dry syndrome patient of table and normal human serum
Glucose | Mannose | G/M ratio | |
Normal person | 5098±1875 | 60.74±29.88 | 87.29±16.28 |
Dry syndrome | 4853±1090 | 66.05±20.58 | 74.20±15.18 |
In addition, there is the mannose of significant difference and glucose to carry out ROC curve analysis with normal person in table 1, with
It is expected that the higher index of area under the curve (AUC), sensitivity and specificity is found, to determine best screening positive critical value
(cutoff value), AUC illustrate that diagnosis effect is better closer to 1.Testing result is shown in Fig. 4, and Fig. 4 result is summarized to table 3.
The cutoff value (μm ol/L) and its sensitivity of mannose and glucose in 3. dry syndrome patients serum of table
It is (%) and specific (%)
AUC | Cutoff value | Sensitivity | Specificity | |
Mannose | 0.6486 | 53.33 | 81.43 | 52.86 |
Glucose | 0.5076 | 4639 | 44.29 | 57.14 |
From Fig. 3, table 1, as can be seen that dry syndrome patients serum dissociates, mannose and glucose significantly rise table 2.Separately
Outside, table 3 is shown, the specificity of mannose and glucose is higher, therefore can be biology mark with free mannose and glucose
Will object detects dry syndrome patient.
Embodiment 5
It is used to detect the application of dry syndrome using biomarker of the present invention, specifically includes the following steps:
(1) it creates alkaline environment: 10 μ L of blood serum sample to be detected being taken to add 30 μ L ultrapure waters in 1.5mL EP pipe, be added
40 μ L 0.3mol/L sodium hydroxides are vortexed and mix;
(2) PMP is derivative: 60 μ L 0.5mol/L PMP are added in each sample, are vortexed and mix, 70 DEG C of baking oven reactions after centrifugation
1h;
(3) acid adding neutralization reaction: the sample in baking oven is taken out, and places cooling, and 40 μ L 0.3mol/L are added in each sample
Hydrochloric acid is vortexed and mixes;
(4) extract: 500 μ L chloroforms are added in every pipe, are vortexed, and centrifugation removes lower layer's chloroform, retain supernatant, weight
It is 3 times multiple;
(5) sample 13000r/min is centrifuged 10min, takes 80 μ L supernatants in the brown loading that 150 μ L interpolation pipes are housed
In bottle, lid is covered tightly, is centrifuged, is ready to use in high-efficient liquid phase analysis.High performance liquid chromatography is 1260 efficient liquid phase system of Agilent,
Agilent Poroshell EC-C18 chromatographic column (4.6mm × 100mm, 2.7 μm);
Chromatographic condition:
Detection wavelength: 254nm, bandwidth 4nm;
Reference wavelength: 350nm, bandwidth 100nm;
Column temperature: 37 DEG C;
Flow velocity: 1mL/min;
Sampling volume: 20 μ L;
Mobile phase: 0.1mol/L ammonium acetate-acetic acid buffer solution, acetonitrile;
Change of gradient:
(6) draw the standard curve of mannose and glucose: precision weighs mannose and proper amount of glucose, adds deionized water
It is configured to each 0.5mg/mL, 0.25mg/mL, 0.1mg/mL, 0.05mg/mL, 0.01mg/mL, 0.005mg/mL containing the above monosaccharide,
The hybrid standard product solution of 0.0025mg/mL, 0.001mg/mL, 0.0005mg/mL, matching while using;Take 40 μ L mixing monosaccharide marks
Quasi- product are managed in 1.5mL EP, and 40 μ L 0.3mol/L sodium hydroxides are added, and are vortexed and are mixed;Remaining step with (2), (3), (4),
(5)。
(7) standard curve in the chromatogram for obtaining step (5) and step (5) compares simultaneously analytical calculation, determines sweet dew
The ratio of sugar, the concentration of glucose and glucose and mannose concentration.And it is made between three by 9 software of Origin
Can 3 dimensional drawing distinguish normal person and dry syndrome patient more intuitively to observe triple combination, see Fig. 5.
If the free mannose concentration in test serum sample is greater than 53.33 μm of ol/L and free concentration of glucose is greater than
4639 μm of ol/L then determine test serum sample for dry syndrome patient.
Result above shows: this method pre-treatment is simple;Analysis time is short;Required amount of serum is few, every time only
The blood volume of 1mL need to be less than;Instrument price is reasonable, meets conventional use;Operating procedure is easy to learn;Detection is accurate.It detects and counts
The ratio for calculating mannose, glucose and the glucose and mannose concentration that dissociate in serum can distinguish normal person and dry synthesis
Disease patient is suitble to clinically be used for the diagnosis of dry syndrome patient.
The above examples are only used to illustrate the technical scheme of the present invention, rather than is limited;Although referring to aforementioned reality
Applying example, invention is explained in detail, for those of ordinary skill in the art, still can be to aforementioned implementation
Technical solution documented by example is modified or equivalent replacement of some of the technical features;And these are modified or replace
It changes, the spirit and scope for claimed technical solution of the invention that it does not separate the essence of the corresponding technical solution.
Claims (13)
1. for identifying the biomarker of dry syndrome, it is characterised in that: the biomarker is serum by before column
The free mannose and glucose that high performance liquid chromatography derived from 1- phenyl -5- methylpyrazole quinoline ketone (PMP) obtains.
2. according to claim 1 for identifying the quantitative analysis method of the biomarker of dry syndrome, feature
Be: this method is high performance liquid chromatography derived from PMP before column, comprising the following specific steps
(1) adjusting pH is 7-14: taking blood serum sample to be detected to add ultrapure water in EP pipe, sodium hydroxide is added, be vortexed and mix;
(2) PMP is derivative: PMP is added in each sample, is vortexed and mixes, and centrifugation is placed on baking oven reaction;
(3) acid adding neutralization reaction: the sample in baking oven is taken out, and places cooling, and hydrochloric acid is added in each sample, is vortexed and is mixed;
(4) extract: organic solvent is added in every pipe, is vortexed, and centrifugation removes lower layer's organic solvent, retains supernatant;
(5) sample is centrifuged, takes supernatant in sample bottle, covering tightly lid in the brown equipped with interpolation pipe, is centrifuged, is ready to use in efficiently
Liquid phase analysis;
(6) standard curve of mannose and glucose is drawn;
(7) chromatogram for obtaining step (5) and the standard curve of step (6) compare simultaneously analytical calculation, determine mannose, grape
The concentration of sugar and the ratio of glucose and mannose concentration.
3. according to claim 2 for identifying the quantitative analysis method of the biomarker of dry syndrome, feature
Be: the high performance liquid chromatography is 1260 efficient liquid phase system of Agilent, Agilent Poroshell EC-C18 chromatography
Column (4.6mm × 100mm, 2.7 μm), the chromatographic condition in the step (5) are as follows:
Detection wavelength: 254nm, bandwidth 4nm;
Reference wavelength: 350nm, bandwidth 100nm;
Column temperature: 37 DEG C;
Flow velocity: 1mL/min;
Sampling volume: 20 μ L;
Mobile phase: A phase is acetonitrile, and B phase is 0.1mol/L ammonium acetate-acetic acid buffer solution that pH is 5.5.
4. according to claim 3 for identifying the quantitative analysis method of the biomarker of dry syndrome, feature
It is: the change of gradient of mobile phase in the step (5) are as follows:
0min, A phase 15%, B phase 85%;
10min, A phase 22%, B phase 78%;
15min, A phase 24%, B phase 76%;
15.1min, A phase 15%, B phase 85%;
20min, A phase 15%, B phase 85%.
5. according to claim 2 for identifying the quantitative analysis method of the biomarker of dry syndrome, feature
Be: the concentration of hydrochloric acid is 0.3mol/L in the step (3).
6. according to claim 2 for identifying the quantitative analysis method of the biomarker of dry syndrome, feature
Be: organic solvent is at least one of chloroform, methylene chloride, ethyl acetate and n-hexane in the step (4).
7. identifying the quantitative analysis method of the biomarker of dry syndrome in dry syndrome disease described in claim 2-6
Application in disease, it is characterised in that the blood serum sample is the serum of dry syndrome patient.
8. a kind of kit for identifying dry syndrome, which is characterized in that the kit contains biology mark described in claim 1
The free mannose and glucose that note object, i.e. serum are obtained by high performance liquid chromatography derived from PMP before column.
9. the kit of identification dry syndrome according to claim 8, which is characterized in that include dense in the kit
The titer for the glucose that degree is 53.33 μm of ol/L mannoses and concentration is 4639 μm of ol/L.
10. the described in any item reagent consumptive materials of claim 2-9 preparation for mannose in dry syndrome patients serum and
Purposes in the kit of glucose quantitation.
11. a kind of kit for identifying dry syndrome, it is characterised in that pass through the mannose and glucose quantitation mirror in serum
Determine dry syndrome.
12. the use that the kit of the described in any item identification dry syndromes of claim 8-11 detects dry syndrome in vitro
On the way.
13. purposes according to claim 12, it is characterised in that identified by mannose in serum and glucose quantitation
Dry syndrome.
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