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Amplite 荧光法丁酰胆碱酯酶活性检测试剂盒

英文名称:Amplite® Fluorimetric Butyrylcholinesterase Activity Assay Kit
Amplite 荧光法丁酰胆碱酯酶活性检测试剂盒
价格 7092
产品规格
100 Tests

产品货号
产品参数
Ex (nm)-Em (nm)-
分子量-溶剂-
存储条件-
产品概述

丁酰胆碱酯酶(EC 3.1.1.8; BChE),也称为假胆碱酯酶或血浆胆碱酯酶,主要在肝脏中合成,并存在于血液中。BChE是一种非特异性胆碱酯酶,可以水解许多不同的胆碱酯,是抵御有毒化合物进入血液的一道防线。它已被鉴定为有机磷酸中毒的临床生物标志物。Amplite 比色丁酰胆碱酯酶活性测定试剂盒是合成的丁酰胆碱酯类底物,可被BChE水解并产生硫代胆碱。硫胆碱可与5、5'-二硫代双(2-硝基苯甲酸)(DTNB)反应,并生成黄色发色团,可在410 nm处检测到。该测定方便,灵敏,并且在各种样品中均可检测到低至6 mU / mL。百萤生物是AAT Bioquest的中国代理商,为您提供优质的Amplite 荧光法丁酰胆碱酯酶活性检测试剂盒。

 

适用仪器


荧光酶标仪  
Ex: 490nm
Em: 525nm
Cutoff: 515nm
推荐孔板: 纯黑色孔板
实验方案

样品实验方案

简要概述

  1. 准备BChE标准品,测试样品和染料工作溶液
  2. 添加BChE标准品或测试样品(100 uL)
  3. 添加BChE染料工作溶液(100 uL)
  4. 在室温下孵育10-30分钟
  5. 检测Ex / Em = 490/525nm的荧光强度

注意:开始实验前,在室温下解冻试剂盒所有成分。

 

溶液配制

储备溶液配制

1.Thiolite 绿色原液(200X):将50 uL DMSO(组分E)加入小瓶Thiolite Green(组分A)中,制成200X Thiolite Green储备溶液。

2.丁硫代胆碱(BTC)储备溶液(100X):将120 uL ddH2O加入BTC小瓶(组分C)中,制成100X BTC储备液。

3.丁胆碱酯酶(BChE)标准溶液(5 U / mL):将50 uL含0.1%BSA的ddH2O加入BChE标准品(组分D)小瓶中,制成5 U / mL BChE标准品溶液。

 

标准溶液配制

将20 uL的5U / mL BChE标准溶液添加到980 uL的测定缓冲液(组分B)中,以生成100mU / mL的BChE标准溶液(BS1),然后取100 mU / mL的BChE标准溶液(BS1),并在测定缓冲液(组分B)中进行1:3连续稀释,以得到系列换算的BChE标准溶液(BS2-BS7)。注意:减少的BChE标准溶液溶液,应在4小时内使用。

 

工作溶液配制

BChE染料工作溶液:将50 uL的200X Thiolite Green储备溶液和100 uL的100X BTC储备溶液添加到10 mL的测定缓冲液(组分B)中,使总体积为10.1 mL BChE染料工作溶液。 注意:避光。

 

实验步骤

表1.在透明的96微孔板中的BChE标准品和测试样品的布局。 BS = BChE标准品(BS1-BS7,100至0.13 mU / mL); BL =空白对照; TS =测试样品

BL

BL

TS

TS

DS1

DS1

DS2

DS2

DS3

DS3

 

 

DS4

DS4

 

 

DS5

DS5

 

 

DS6

DS6

 

 

DS7

DS7

 

 

表2.  每个孔的试剂组成

Well

Volume

Reagent

DS1-DS7

100 uL

连续稀释 (100 to 0.13 mU/mL)

BL

100 uL

缓冲液 (Component B)

TS

100 uL

实验样品

  1. 根据表1和表2提供的布局,准备BChE标准品(BS),空白对照(BL)和测试样品(TS)。对于384孔板,每孔使用25 uL的试剂代替100 uL。 注意:根据需要处理细胞或组织样品。

  2. 将100 uL BChE染料工作溶液添加到BChE标准品,空白对照和测试样品的每个孔中,使总测定体积为200 uL /孔。 对于384孔板,将25 uL BChE工作溶液添加到每个孔中,总体积为50 uL /孔。

  3. 在避光条件下,于室温下孵育反应10至30分钟。

  4. 使用荧光酶标仪在Ex / Em = 490/525nm处检测荧光的增加。

 

图示

 

图1.使用Gemini荧光酶标仪在带有Amplite 荧光丁酰胆碱酯酶检测试剂盒的黑色96孔板上测定丁酰胆碱酯酶的剂量响应。 孵育10分钟可检测到低至0.1 mU / mL的丁酰胆碱酯酶。

 

参考文献

A randomized crossover trial assessing the effects of acute exercise on appetite, circulating ghrelin concentrations, and butyrylcholinesterase activity in normal-weight males with variants of the obesity-linked FTO rs9939609 polymorphism
Authors: Dorling, J. L., Clayton, D. J., Jones, J., Carter, W. G., Thackray, A. E., King, J. A., Pucci, A., Batterham, R. L., Stensel, D. J.
Journal: Am J Clin Nutr (2019): ersion="1.0" encoding="UTF-8" ?>11406.enlEndNote1117Dorling, J. L.Clayton, D. J.Jones, J.Carter, W. G.Thackray, A. E.King, J. A.Pucci, A.Batterham, R. L.Stensel, D. J.National Centre for Sport and Exercise Medicine, School of Sport, Exercise, and Health S

Anti-Alzheimer's multitarget-directed ligands with serotonin 5-HT6 antagonist, butyrylcholinesterase inhibitory, and antioxidant activity
Authors: Marcinkowska, M., Bucki, A., Panek, D., Siwek, A., Fajkis, N., Bednarski, M., Zygmunt, M., Godyn, J., Del Rio Valdivieso, A., Kotanska, M., Kolaczkowski, M., Wieckowska, A.
Journal: Arch Pharm (Weinheim) (2019): e1900041

Discovery of New Selective Butyrylcholinesterase (BChE) Inhibitors with Anti-Abeta Aggregation Activity: Structure-Based Virtual Screening, Hit Optimization and Biological Evaluation
Authors: Jiang, C. S., Ge, Y. X., Cheng, Z. Q., Wang, Y. Y., Tao, H. R., Zhu, K., Zhang, H.
Journal: Molecules (2019): se name="11406.enl" path="C:\Users\aatbi\Dropbox (AAT Bioquest)\Catalogs & Website Working Files\Product References\11406.enl">11406.enlEndNote5517Jiang, C. S.Ge, Y. X.Cheng, Z. Q.Wang, Y. Y.Tao, H. R.Zhu, K.Zhang, H.School of Biological Science and T

Drop of Butyrylcholinesterase Activity after Cyclophosphamide Conditioning as a Predictive Marker of Liver Transplant-Related Complications and Its Correlation with Transplant-Related Mortality in Pediatric Hematopoietic Stem Cell Recipients
Authors: Maximova, N., Caddeo, G., Zanon, D., Maestro, A., Simeone, R.
Journal: J Clin Med (2019): se name="11406.enl" path="C:\Users\aatbi\Dropbox (AAT Bioquest)\Catalogs & Website Working Files\Product References\11406.enl">11406.enlEndNote6617Maximova, N.Caddeo, G.Zanon, D.Maestro, A.Simeone, R.Bone Marrow Transplant Unit, Institute for Maternal

Effects of simvastatin and fenofibrate on butyrylcholinesterase activity in the brain, plasma, and liver of normolipidemic and hyperlipidemic rats
Authors: Vuksic, A., Lovric, J., Konjevoda, P., Blazevic, N., Bilusic, M., Bradamante, V.
Journal: Arh Hig Rada Toksikol (2019): 30-35

Flavonols and 4-thioflavonols as potential acetylcholinesterase and butyrylcholinesterase inhibitors: Synthesis, structure-activity relationship and molecular docking studies
Authors: Mughal, E. U., Sadiq, A., Ashraf, J., Zafar, M. N., Sumrra, S. H., Tariq, R., Mumtaz, A., Javid, A., Khan, B. A., Ali, A., Javed, C. O.
Journal: Bioorg Chem (2019): 103124

Haplotypes of butyrylcholinesterase K-variant and their influence on the enzyme activity
Authors: Jasiecki, J., Zuk, M., Krawczynska, N., Jonca, J., Szczoczarz, A., Lew and owski, K., Waleron, K., Wasag, B.
Journal: Chem Biol Interact (2019): 154-157

Microwave-Assisted Organic Synthesis, structure-activity relationship, kinetics and molecular docking studies of non-cytotoxic benzamide derivatives as selective butyrylcholinesterase inhibitors
Authors: Wajid, S., Khatoon, A., Khan, M. A., Zafar, H., Kanwal, S., Atta Ur, Rahman, Choudhary, M. I., Basha, F. Z.
Journal: Bioorg Med Chem (2019): 4030-4040

Phytochemical content, antioxidant activity, and enzyme inhibition effect of Salvia eriophora Boiss. & Kotschy against acetylcholinesterase, alpha-amylase, butyrylcholinesterase, and alpha-glycosidase enzymes
Authors: Bursal, E., Aras, A., Kilic, O., Taslimi, P., Goren, A. C., Gulcin, I.
Journal: J Food Biochem (2019): e12776

Profiling Auspicious Butyrylcholinesterase Inhibitory Activity of Two Herbal Molecules: Hyperforin and Hyuganin C
Authors: Orhan, I. E., Senol Deniz, F. S., Traedal-Henden, S., Ceron-Carrasco, J. P., den Haan, H., Pena-Garcia, J., Perez-Sanchez, H., Emerce, E., Skalicka-Wozniak, K.
Journal: Chem Biodivers (2019): e1900017