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- 详细信息
- 文献和实验
- 技术资料
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iFluor 647抗体标记试剂盒
- 英文名:
Rapid iFluor™ 647 抗体标记试剂盒
- 保存条件:
低温
- 规格:
2 Labelings
Rapid iFluor™ 647 抗体标记试剂盒
Components
| Component A: iFluor™ 647 | 2 vials (One vial is for 50 μg protein) |
| Component B: Reaction Buffer | 1 vial (20 µL) |
| Component C: TQ™-Dyed Quench Buffer | 1 vial (20 µL) |
Example protocol
At a glance
Table 1. Available fluorophores in AAT Bioquest ReadyLink™ Rapid Antibody Labelling Kits
| Cat# | Labels | Ex (nm) | Em (nm) |
| 1100 | mFluor™ Violet 450 | 403 | 454 |
| 1105 | mFluor™ Violet 420 | 398 | 411 |
| 1110 | mFluor™ Violet 510 | 414 | 508 |
| 1114 | mFluor™ Violet 540 | 399 | 550 |
| 1120 | mFluor™ Blue 570 | 553 | 570 |
| 1123 | mFluor™ Green 620 | 522 | 617 |
| 1126 | mFluor™ Yellow 630 | 561 | 630 |
| 1130 | mFluor™ Red 700 | 657 | 700 |
| 1131 | mFluor™ Red 780 | 629 | 780 |
| 1220 | iFluor™ 350 | 345 | 442 |
| 1227 | iFluor™ 555 | 559 | 569 |
| 1230 | iFluor™ 594 | 592 | 614 |
| 1235 | iFluor™ 647 | 654 | 674 |
| 1240 | iFluor™ 680 | 682 | 701 |
| 1245 | iFluor™ 700 | 693 | 713 |
| 1250 | iFluor™ 750 | 753 | 779 |
| 1255 | iFluor™ 488 | 491 | 514 |
| 1260 | iFluor™ 633 | 638 | 655 |
| 1265 | iFluor™ 790 | 782 | 811 |
| 1290 | Cy3 | 555 | 565 |
| 1292 | Cy5 | 644 | 665 |
| 1294 | Cy7 | 749 | 776 |
| 1299 | FITC | 494 | 520 |
Preparation of working solution
Important
Warm all the components and centrifuge the vials briefly before opening, and immediately prepare the required solutions before starting your conjugation. The following protocol is for recommendation.
Protein working solution (Solution A):
For labeling 50 µg of protein (assuming the target protein concentration is 1 mg/mL), mix 5 µL (10% of the total reaction volume) of Reaction Buffer (Component B) with 50 µL of the target protein solution. Note: If you have a different protein concentration, adjust the protein volume accordingly to make ~50 µg of protein available for your labeling reaction. Note: For labeling 100 µg of protein (assuming the target protein concentration is 1 mg/mL), mix 10 µL (10% of the total reaction volume) of Reaction Buffer (Component B) with 100 µL of the target protein solution. Note: The protein should be dissolved in 1X phosphate buffered saline (PBS), pH 7.2 - 7.4; if the protein is dissolved in glycine buffer, it must be dialyzed against 1X PBS, pH 7.2 - 7.4, or use Amicon Ultra-0.5, Ultracel-10 Membrane, 10 kDa (cat# UFC501008 from Millipore) to remove free amines or ammonium salts (such as ammonium sulfate and ammonium acetate) that are widely used for protein precipitation. Note: Impure antibodies or antibodies stabilized with bovine serum albumin (BSA) or gelatin will not be labeled well. Note: For optimal labeling efficiency, a final protein concentration range of 1 - 2 mg/mL is recommended, with a significantly reduced conjugation efficiency at less than 1 mg/mL.
Procedure
Run conjugation reaction
- Add the protein working solution (Solution A) to ONE vial of labeling dye (Component A), and mix them well by repeatedly pipetting for a few times or vortex the vial for a few seconds. Note: If labeling 100 µg of protein, use both vials (Component A) of labeling dye by dividing the 100 µg of protein into 2 x 50 µg of protein and reacting each 50 µg of protein with one vial of labeling dye. Then combine both vials for the next step.
- Keep the conjugation reaction mixture at room temperature for 30 - 60 minutes. Note: The conjugation reaction mixture can be rotated or shaken for longer time if desired.
Stop Conjugation reaction
- Add 5 µL (for 50 µg protein) or 10 µL (for 100 µg protein) which is 10% of the total reaction volume of TQ™-Dyed Quench Buffer (Component C) into the conjugation reaction mixture; mix well.
- Incubate at room temperature for 10 minutes. The labeled protein (antibody) is now ready to use.
Storage of Protein Conjugate
The protein conjugate should be stored at > 0.5 mg/mL in the presence of a carrier protein (e.g., 0.1% bovine serum albumin). For longer storage, the protein conjugates could be lyophilized or divided into single-used aliquots and stored at ≤ –20°C.
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文献和实验生物技术有限公司自2007年开始以结核抗体基因检测技术进行结核试剂盒开发研究,并以金标免疫层析阵列技术检测结核病人的血清抗体,从技术层面解决了结核分枝杆菌抗体检测特异性不高的问题,而且还利用两种抗原检测的互补效果提高了检测灵敏度。目前,成功研制的结核抗体快速检测(只需5-6分钟)试剂盒获得新器械产品注册证后已进入市场销售,为结核抗体检测提供了一项新的快速检测手段。
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