中文名称: | 5-氰基2,3-二(对甲苯基)四唑氯化物 | ||||
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英文名称: | 5-Cyano-2,3-di-(p-tolyl)tetrazolium chloride | ||||
别名: | 5-氰基-2,3-二-氯化四氮唑;5-氰基-2,3-双(4-甲基苯基)-2H-氯化四唑 5-Cyano-2,3-di-p-tolyltetrazolium chloride;5-Cyano-2,3-ditolyltetrazolium;5-Cyano-2,3-ditolyltetrazolium chloride;5-Cyano-2,3-di-(p-tolyl)tetrazolium chloride;2H-Tetrazolium, 5-cyano-2,3-bis(4-methylphenyl)-, chloride | ||||
CAS No: | 90217-02-0 | 分子式: | C16H14ClN5 | 分子量: | 311.77 |
CAS No: | 90217-02-0 | ||||
分子式: | C16H14ClN5 | ||||
分子量: | 311.77 | ||||
MDL: | MFCD00467521 |
熔点:
225 ℃
包装规格:
10mg 50mg in glass bottle
产品描述:
5-Cyano-2,3-di-(p-tolyl)tetrazolium chloride(CTC)是在环境和生态研究中被广泛使用和接受的染料。氧化还原染料CTC由于具有将CTC还原为荧光产物的能力,因此对于评估具有高代谢活性的好氧细菌是一种很好的重要染色剂。通过CTC清除电子传输系统或脱氢酶成分中的电子,可以还原为具有荧光活性的甲electron形式。该染料已与核酸染色染料DAPI结合使用以定量活细菌。
5-Cyano-2,3-di-(p-tolyl)tetrazolium chloride (CTC) is a widely used and accepted dye in environmental and ecological studies. The redox dye CTC is a good vital stain for estimating aerobic bacteria with high metabolic activity due to their ability to reduce CTC to the fluorescent product. The reduction to the fluorescently active formazan form occurs by CTC scavenging for electrons from the components of the electron transport system or dehydrogenases. The dye has been used in conjunction with the nucleic acid staining dye DAPI to quantitate viable bacteria.
5-Cyano-2,3-di-(p-tolyl)tetrazolium chloride (CTC) is a widely used and accepted dye in environmental and ecological studies. The redox dye CTC is a good vital stain for estimating aerobic bacteria with high metabolic activity due to their ability to reduce CTC to the fluorescent product. The reduction to the fluorescently active formazan form occurs by CTC scavenging for electrons from the components of the electron transport system or dehydrogenases. The dye has been used in conjunction with the nucleic acid staining dye DAPI to quantitate viable bacteria.
保存条件:
-20°C 避光 充氮保存
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参考文献 & 客户发表文献
本计算器可帮助您计算出特定溶液中溶质的质量、溶液浓度和体积之间的关系,公式为:
质量 (g) = 浓度 (mol/L) x 体积 (L) x 分子量 (g/mol)
摩尔浓度计算公式
用本工具协助配置特定浓度的溶液,使用的计算公式为:
开始浓度 x 开始体积 = 最终浓度 x 最终体积
稀释公式
稀释公式一般简略地表示为:C1V1 = C2V2 ( 输入 输出 )