世界*实验材料供应商 BioCheck上海金畔生物为其中国代理, BioCheck在一直是行业的*,一直为广大科研客户提供zui为的产品和服务,上海金畔生物一直秉承为中国科研客户带来的产品,的服务, BioCheck就是为了给广大科研客户带来更加完善的产品和服务,您的满意将是我们zui大的收获
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BIOCHECK公司由创始人 Dr. John Chen, Medix创立, 是一家抓也提供肿瘤标志物,心肌标志物,激素类zui高性价比的抗体的公司。
简要原理
利用竞争酶联免疫方法,预先在微孔中包被羊抗兔抗体,实验时先后加入氯霉素标准品或待测样本,氯霉素酶标抗原和兔抗氯霉素抗体。经过室温温育,反应液中的兔抗氯霉素抗体与微孔板上的羊抗兔抗体结合,待测样品中的抗原与氯霉素酶标抗原竞争微孔板上的兔抗氯霉素抗体。洗涤后,没有与抗
体结合的待测样品中的抗原或酶标抗原被洗去,再加入反应底物,结合的酶标抗原的酶将底物转化为蓝色产物,加入终止液后颜色由蓝色变为黄色。反应完成后,样品中氯霉素含量越多,反应呈色就越浅;反之,样品中氯霉素含量越少,则呈色越深。利用标准曲线可计算出样品中氯霉素含量。
技术参数
检测蜂蜜、蛋类、牛奶、奶粉、水产品、动物组织(肌肉、肝脏等)、饲料、血清、血浆及尿液样本中存在的氯霉素,定量限可达0.025 ppb。
No. |
样品 |
检测下限 |
1 |
蜂蜜 |
0.02 ppb (0.02 ng/g) |
2 |
蛋类 |
0.02 ppb (0.02 ng/g) |
3 |
牛奶 |
0.002 ppb (0.002 ng/ml) |
4 |
奶粉 |
0.012 ppb (0.012 ng/g) |
5 |
虾,鱼及肉类 |
0.08 ppb (0.08 ng/g) |
6 |
饲料 |
0.08 ppb (0.08 ng/g) |
7 |
血清/血浆 |
0.02 ppb (0.02 ng/ml) |
8 |
尿液 |
0.04 ppb (0.04 ng/ml) |
交叉反应
名称 |
百分比 |
氯霉素碱 |
0.4% |
甲基氯霉素 |
<0.04% |
回收率
No. |
样品 |
回收率 |
1 |
蜂蜜 |
70% ~ 110% |
2 |
牛奶 |
90% ~ 130% |
3 |
蛋,虾,鱼及肉类 |
95% ~ 120% |
4 |
饲料 |
95% ~ 120% |
5 |
血清 / 血浆 |
90% ~ 120% |
6 |
尿液 |
100% ~ 130% |
PD-1 ENZYME IMMUNOASSAY TEST KIT
Catalog Number: BC-1301
Enzyme Immunoassay for the Quantitative Determination of PD- 1 Concentration in Human Serum and Plasma
FOR RESEARCH USE ONLY
Not for use in diagnostic procedures
INTRODUCTION
Programmed cell death protein 1, (PD-1, CD279, PDCD1), is a cell surface receptor that is critical for the regulation of T cell inflammatory activity and maintains peripheral tolerance in the immune system (1). With an extracellular IgV domain, a transmembrane domain, and an intracellular tail with two phosphorylation sites (SHP-1 and SHP-2), PD- 1 is able to interact with ligands PD-L1 and PD-L2 to down-regulate the immune system and suppress T cell activity (2). Upon antigen recognition, an activated T cell expresses PD-1 on its surface and produces interferons, which induces expression of PD-L1, thereby promoting apoptosis or cell death. (3) However when hijacked by tumor cells, aberrant expression of PD-1 ligands inhibits immune-modulatory T cell activation, leading to disease progression (4).
Elevated levels of PD-1 in serum and plasma have been associated with rheumatoid arthritis and skin sclerosis (5,6). Also, PD-1 is predominantly expressed by tumor infiltrating T cells(7). Further research implies that using monoclonal antibodies to target the PD-1 immunologic checkpoint has contributed to breakthrough progress in understanding and treating cancers such as melanoma and other various non-small cell lung cancer (4).
PRINCIPLE OF THE ASSAY
The PD-1 ELISA is based on the principle of a solid phase enzyme-linked immunosorbent assay. The assay system utilizes a unique monoclonal antibody pair directed against a distinct antigenic determinant on the PD-1 molecule. One mouse monoclonal anti- PD- 1 antibody is used for solid phase immobilization (on the microtiter wells). Another mouse monoclonal anti-PD-1 antibody conjugated to horseradish peroxidase (HRP) is in the enzyme conjugate solution. The test samples are allowed to react sequentially with the two antibodies, resulting in the PD-1 molecules to be sandwiched between the solid phase and enzyme-linked antibodies. After two separate 60- minute incubation steps at room temperature, the wells are rinsed with Wash Buffer to remove unbound labeled antibodies. TMB Reagent is added and incubated
for 30 minutes under dark conditions, resulting in the development of a blue color. The color development is stopped with the addition of Stop Solution, changing the color to yellow. The concentration of PD-1 is directly proportional to the color intensity of the test samples. Absorbance is measured spectrophotometrically at 450 nm.
REAGENTS AND MATERIALS PROVIDED
- Antibody-Coated Wells (1 plate, 96 wells)
Microtiter wells coated with mouse monoclonal anti-PD-1
- 50 ng/ml PD-1 Standard (0.5 mL /vial)
50 ng/mL PD-1 in phosphate buffer-BSA solution with preservatives
3. Standard and Sample Diluent (30 mL/bottle, 1 bottle)
Contains phosphate buffer-BSA solution with preservatives
- Enzyme Conjugate Reagent (12 mL/vial, 1 vial)
Contains mouse monoclonal anti-PD-1 conjugated to horseradish peroxidase
- 20X Wash Buffer (50 mL/bottle, 1 bottle) Phosphate buffer with detergents
- TMB Reagent (11 mL/bottle, 1 bottle)
Contains one-step TMB solution
- Stop Solution (11 mL/bottle, 1 bottle)
Contains diluted hydrochloric acid (1N HCl)
STORAGE CONDITIONS
- Store the unopened kit at 2-8°C upon receipt and when it is not in use, until the expiration shown on the kit label. Refer to the package label for the expiration date.
- Keep microtiter plate in a sealed bag with desiccant to minimize exposure to damp air.
REAGENT PREPARATION
- All reagents should be allowed to reach room temperature (18-25°C) before use.
- For each test run, prepare a fresh standard set.
- Dilute 50 ng/mL to 10 ng/mL with Standard/Sample diluent. Prepare two-fold serial dilutions of the 10 ng/mL Standard with Standard/Sample Diluent:
- 10 ng/mL: 0.12 mL of 50 ng/mL + 0.48 mL of Standard/Sample Diluent
- 5 ng/mL: 0.25 mL of 10 ng/mL+ 0.25 mL of Standard/Sample Diluent
- 2.5 ng/mL: 0.25 mL of 5 ng/mL+ 0.25 mL of Standard /Sample Diluent
- 1.25 ng/mL: 0.25 mL of 2.5 ng/ml + 0.25 mL of Standard/Sample Diluent
- 0.625 ng/mL: 0.25 mL of 1.25 ng/mL + 0.25 mL of Standard/Sample Diluent
- 0.313 ng/mL: 0.25 mL of 0.625 ng/mL + 0.25 mL of Standard/Sample Diluent
- 0.156 ng/mL: 0.25 mL of 0.313 ng/mL + 0.25 mL of Standard Diluent
- 0 ng/mL: 0.25 mL of Standard Diluent
- Patient samples need to be diluted 4-fold prior to use. Prepare a series of small tubes (i.e., 1.5 mL microcentrifuge tubes) and mix 60 µL of serum with 180 µLStandard/Sample Diluent.
- Working Wash Buffer: Preparation of 1X Wash Buffer from 20X Stock. Add 50 mL of 20X Wash Buffer Stock to 950 mL of DI H2O. The Working Wash Buffer is stable at 2-8°C for 30 days. NOTE: Any crystals that may be present due to high salt concentration must be redissolved at room temperature before making the dilution.
ASSAY PROCEDURE
- Prepare Standards. See Reagent Preparation.
- Dilute samples 1:4 dilution. See Reagent Preparation.
- Secure the desired number of coated wells in the holder.
- Dispense 100 mL of PD-1 standards, and DILUTED specimens into the appropriate wells.
- Incubate for 60 minutes at room temperature (18-25 °C).
- Remove incubation mixture by flicking plate contents into a waste container. Rinse and flick the microtiter wells 5 times with 300 m L Working Wash Buffer. Strike the wells onto absorbent paper or paper towels to remove all residual water droplets.
- Dispense 100 mL of PD-1 Working Enzyme Conjugate Reagent into each well.
- Incubate for 60 minutes at room temperature (18-25 °C).
- Remove incubation mixture by flicking plate contents into a waste container. Rinse and flick the microtiter wells 5 times with 300 uL Working Wash Buffer. Strike the wells onto absorbent paper or paper towels to remove all residual water droplets.
- Dispense 100 mL TMB solution into each well.
- Incubate for 30 minutes at room temperature (18-25 °C).
- Stop the reaction by adding 100 mL of Stop Solution into each well.
- Gently mix for 30 seconds. It is important to make sure that all the blue color changes to yellow color compley.
- Read absorbance at 450 nm with a microtiter well reader within 15 minutes.
CALCULATION OF RESULTS
- Calculate the mean absorbance value (OD450) for each set of reference standards, controls and samples.
- Construct a standard curve by plotting the mean absorbance obtained for each reference standard against its concentration in ng/ml on graph paper, with absorbance on the vertical (y) axis and concentration on the horizontal (x) axis.
- The corresponding concentration of PD-1 (ng/mL) can be determined from the standard curve using the mean absorbance value for each sample. Depending on experience and/or the availability of computer capability, other methods of
data reduction may be employed.
- The obtained values of the samples should be multiplied by the dilution factor of 4 to obtain PD-1 results in ng/ml.
EXAMPLE OF STANDARD CURVE
Results of a typical standard run with absorbency readings at 450 nm shown on the Y axis against PD -1 concentrations shown on the X axis. NOTE: This standard curve is for the purpose of illustration only, and should not be used to calculate unknowns. Each laboratory must generate its own data and standard curve in each experiment.
PD-1 |
Absorbance |
(ng/ml) |
(450 nm) |
0 |
0.089 |
0.156 |
0.138 |
0.313 |
0.190 |
0.625 |
0.284 |
1.25 |
0.481 |
2.5 |
0.851 |
5 |
1.581 |
10 |
2.776 |
nm |
3 |
|
|
|
|
|
2.5 |
|
|
|
|
|
|
(450 |
|
|
|
|
|
|
2 |
|
|
|
|
|
|
Absorbance |
1.5 |
|
|
|
|
|
1 |
|
|
|
|
|
|
0.5 |
|
|
|
|
|
|
0 |
|
|
|
|
|
|
|
0 |
2 |
4 |
6 |
8 |
10 |
|
|
|
PD-1 Conc. (ng/ml) |
|
PERFORMANCE CHARACTERISTICS
- Sensitivity
The minimum detectable concentration of the PD-1 ELISA assay as measured by 2SD from the mean of a zero standard is estimated to be 0.15 ng/ml.
- Precision
- Intra-Assay Precision
Within-run precision was determined by replicate determinations of three different samples in one assay. Within-assay variability is shown below:
Sample |
1 |
2 |
3 |
# Replicates |
24 |
24 |
24 |
Mean PD-1 (ng/mL) |
8.4 |
13.2 |
22.9 |
S.D. |
0.6 |
1.0 |
0.9 |
C.V. (%) |
7.0% |
7.2% |
3.8%. |
2
- Inter-Assay Precision
Between-run precision was determined by replicate measurements of three different samples over a series of individually calibrated assays. Between-assay variability is shown below:
Sample |
1 |
2 |
3 |
# Replicates |
20 |
20 |
20 |
Mean PD-1 (ng/mL) |
9.1 |
13.5 |
25.3 |
S.D. |
0.8 |
1.1 |
0.9 |
C.V. (%) |
9.2% |
7.9 |
3.7 |
- Recovery and Linearity Studies
- Recovery
Samples were spiked with known PD-1 levels and assayed in duplicate. The mean recovery was 105.3%.
PAIR |
EXPECTED |
OBSERVED |
% RECOVERY |
NUMBER |
[PD-1] |
[PD-1] |
|
|
(ng/mL) |
(ng/mL) |
|
1 |
8 |
8.8 |
110.0% |
2 |
12.5 |
13.1 |
104.8% |
3 |
25 |
25.3 |
101.2% |
- Linearity
Three samples were serially diluted to determine linearity. The mean recovery was 99.6%.
# |
Dilution |
Expected |
Observed |
|
|
|
Conc. (ng/ml) |
Conc. (ng/ml) |
% Expected |
1. |
1:2 |
|
10.1 |
114.8% |
|
1:4 |
8.8 |
8.8 |
N/A |
|
1:8 |
|
7.8 |
88.6% |
|
|
|
|
Mean = 101.7% |
|
|
|
|
|
2. |
1:2 |
|
14.5 |
110.6% |
|
1:4 |
13.1 |
13.1 |
N/A |
|
1:8 |
|
11.6 |
88.5% |
|
|
|
|
Mean = 99.6% |
3. |
1:2 |
|
26.5 |
104.7% |
|
1:4 |
25.3 |
25.3 |
N/A |
|
1:8 |
|
23.0 |
90.0% |
Mean = 97.4%
REFERENCES
- Fife, B. T., & Pauken, K. E. (2011). The role of the PD-1 pathway in autoimmunity and peripheral tolerance. Annals of the New York Academy of Sciences, 1217(1), 45-59.
- Riella, L. V., Paterson, A. M., Sharpe, A. H., & Chandraker, A. (2012). Role of the PD-1 Pathway in the Immune Response. American Journal of Transplantation : Official Journal of the American Society of
Transplantation and the American Society of Transplant
Surgeons, 12(10), 2575–2587.
- Zak, Krzysztof & Ki, Radosław & Przetocka, Sara & Golik, Przemysław & Guzik, Katarzyna & Musielak, Bogdan & Dömling, Alexander & Dubin, Grzegorz & Holak, Tad. (2015). Structure of the Complex of Human Programmed Death 1, PD-1, and Its Ligand PD-L1. Structure. 23. . 10.1016/j.str.2015.09.010.
- Zoran Gatalica, Carrie Snyder, Todd Maney, Anatole Ghazalpour, Daniel Holterman, Nianqing Xiao, Peggy Overberg, Inga Rose, Gargi D. Basu, Semir Vranic, Henry T. Lynch, Daniel D. Von Hoff and Omid Hamid. Programmed Cell Death 1 (PD-1) and Its Ligand (PD-L1) in Common Cancers and Their Correlation with Molecular Cancer Type.
Cancer Epidemiol Biomarkers Prev. December 1 2014 (23) (12) 2965-2970.
- Greisen, S., Rasmussen, T., Stengaard-Pedersen, K., Hetland, M., Hørslev-Petersen, K., Hvid, M., & Deleuran, B. (2013). Increased
soluble programmed death-1 (sPD-1) is associated with disease activity and radiographic progression in early rheumatoid arthritis. Scandinavian Journal of Rheumatology,43(2), 101-108.
- Yanaba, K., Hayashi, M., Yoshihara, Y., & Nakagawa, H. (2016). Serum levels of soluble programmed death-1 and programmed death ligand-1 in systemic sclerosis: Association with extent of skin sclerosis. The Journal of Dermatology,43(8), 954-957.
- Ahmadzadeh, M., Johnson, L. A., Heemskerk, B., Wunderlich, J. R., Dudley, M. E., White, D. E., & Rosenberg, S. A. (2009). Tumor antigen–specific CD8 T cells infiltrating the tumor express high levels of PD-1 and are functionally impaired. Blood, 114(8), 1537–1544.
部分产品报价如下:
货号 | 品名 | 规格 | 价格 | 品牌 |
BC-1009 | AFP EIA Kit | kit | 3980 | BioCheck |
BC-1011 | CEA EIA Kit | kit | 4016 | BioCheck |
BC-1013 | CA 125 EIA Kit | kit | 4970 | BioCheck |
BC-1015 | CA 15-3 EIA Kit | kit | 4970 | BioCheck |
BC-1017 | CA 19-9 EIA Kit | kit | 4970 | BioCheck |
BC-1019 | PSA EIA Kit* | kit | 3962 | BioCheck |
BC-1021 | Free PSA EIA Kit* | kit | 4196 | BioCheck |
BC-1023 | Free b-hCG EIA Kit | kit | 4196 | BioCheck |
BC-1061 | b-2 Microglobulin EIA Kit § | kit | 4250 | BioCheck |
BC-1001 | TSH EIA Kit § | kit | 3800 | BioCheck |
BC-1003 | U-TSH (S-TSH) EIA Kit § | kit | 3800 | BioCheck |
BC-1005 | T3 EIA Kit § | kit | 3656 | BioCheck |
BC-1006 | Free T3 EIA Kit § | kit | 3890 | BioCheck |
BC-1007 | T4 EIA Kit § | kit | 3656 | BioCheck |
BC-1008 | Free T4 EIA Kit | kit | 3890 | BioCheck |
BC-1081 | Rubella IgG EIA Kit* | kit | 4106 | BioCheck |
BC-1083 | Rubella IgM EIA Kit* | kit | 4196 | BioCheck |
BC-1085 | Toxo IgG EIA Kit* | kit | 3980 | BioCheck |
BC-1087 | Toxo IgM EIA Kit* | kit | 4070 | BioCheck |
BC-1089 | CMV IgG EIA Kit* | kit | 3980 | BioCheck |
BC-1091 | CMV IgM EIA Kit* | kit | 4070 | BioCheck |
BC-1093 | HSV I IgG EIA Kit | kit | 3980 | BioCheck |
BC-1095 | HSV I IgM EIA Kit | kit | 4196 | BioCheck |
BC-1097 | HSV II IgG EIA Kit | kit | 3980 | BioCheck |
BC-1099 | HSV II IgM EIA Kit | kit | 4070 | BioCheck |
BC-1051 | H. pylori IgG (Qualitative) EIA Kit | kit | 4016 | BioCheck |
BC-1052 | H. pylori IgG (Quantitative) EIA Kit | kit | 4106 | BioCheck |
BC-1053 | H. pylori IgM (Qualitative) EIA Kit | kit | 4286 | BioCheck |
BC-1027 | hCG EIA Kit § | kit | 3800 | BioCheck |
BC-1029 | FSH EIA Kit § | kit | 3800 | BioCheck |
BC-1031 | LH EIA Kit § | kit | 3800 | BioCheck |
BC-1037 | Prolactin EIA Kit § | kit | 3800 | BioCheck |
BC-1025 | Human Ferritin EIA Kit § | kit | 3800 | BioCheck |
BC-1033 | HGH EIA Kit § | kit | 3800 | BioCheck |
BC-1035 | IgE EIA Kit § | kit | 3800 | BioCheck |
BC-1203 | Adiponectin EIA Kit* | kit | 7580 | BioCheck |
BC-1105 | Troponin I EIA Kit § | kit | 5330 | BioCheck |
BC-1117 | Myoglobin EIA Kit § | kit | 4250 | BioCheck |
BC-1119 | HS-CRP EIA Kit § | kit | 4250 | BioCheck |
BC-1121 | CK-MB EIA Kit* | kit | 6680 | BioCheck |
BC-1129 | MPO EIA Kit* | kit | 8480 | BioCheck |
BC-1111 | Estradiol EIA Kit § | kit | 4250 | BioCheck |
BC-1113 | Progesterone EIA Kit § | kit | 4250 | BioCheck |
BC-1115 | Testosterone EIA Kit § | kit | 4250 | BioCheck |
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