Nakai C, Brooker G
Biochim Biophys Acta. 1975 May 23;391(1):222-39. doi: 10.1016/0005-2744(75)90169-2.
Simple one step assay methods for adenylate cyclase (ATP pyrophosphate-lyase (cyclizing) EC 4.6.1.1) and cyclic nucleotide phosphodiesterases (3',5'-cyclic nucleotide 5'-nucleotidohydrolase EC 3.1.4.17) have been developed. [alpha-32-P] ATP is used as the substrate for adenylate cyclase. Acid-heat destruction of [32-P] ATP remaining after the cyclase reaction followed by Zn-Ba treatment quantitatively leaves cyclic [32-P] AMP in the supernatant essentially free from other 32-P-containing compounds. This assay method requires no corrections for recovery and routinely yields blank values less than 0.03 per cent. If higher sensitivity is desired, a simple 5 min alumina column step can be introduced into the procedure which quantitatively elutes cyclic [32-P] AMP directly into a liquid scintillation vial and lowers the blank values to less than 0.002 per cent. This method is rapid and easily performed, without sacrificing high reliability, specificity, or sensitivity. One step phosphodiesterase assays are easily accomplished using 32-P-labeled cyclic nucleotides as substrates. Descending paper chromatography of the reaction mixture on individual 2 cm wide paper strips gives a complete and quantitative separation of all possible products including [5'-32-P] AMP and [5'-32-P] GMP from their respective 32-P-labeled 3',5'-cyclic nucleotides in 1-2 h. The paper strips are cut, inserted in scintillation vials without scintillant and the 32-P-products determined by Cerenkov counting. Low blank values of less than 0.5 per cent and the use of high specific activity 32-P-labeled cyclic nucleotide substrates make this method the most reliable and most sensitive phosphodiesterase assay described to date. Because of the simplicity, specificity, and high sensitivity obtainable with these assay methods using 32-P-labeled substrates, we have also devised simple conditions for the preparation and purification of [alpha-32-P] ATP, cyclic [32-P] AMP and cyclic [32-P] GMP with specific activities in excess of 100 Ci/mmol. These high specific activity 32-Plabeled cyclic nucleotides are important for these new assay methods and are also useful to follow purification recovery of endogenous cyclic AMP and cyclic GMP from biological materials before protein binding or radioimmunological isotope displacement assays when performed in the femtomole range.
已开发出用于腺苷酸环化酶(ATP 焦磷酸裂解酶(环化),EC 4.6.1.1)和环核苷酸磷酸二酯酶(3',5'-环核苷酸 5'-核苷酸水解酶,EC 3.1.4.17)的简单一步测定方法。[α-32-P]ATP 用作腺苷酸环化酶的底物。环化酶反应后剩余的[32-P]ATP 经酸热破坏,然后进行锌钡处理,定量地使上清液中的环[32-P]AMP 基本不含其他含 32-P 的化合物。该测定方法无需校正回收率,常规空白值低于 0.03%。如果需要更高的灵敏度,可在该程序中引入一个简单的 5 分钟氧化铝柱步骤,该步骤可将环[32-P]AMP 定量洗脱直接进入液体闪烁瓶,并将空白值降低至低于 0.002%。该方法快速且易于操作,同时不牺牲高可靠性、特异性或灵敏度。使用 32-P 标记的环核苷酸作为底物,一步法磷酸二酯酶测定很容易完成。在单独的 2 厘米宽纸条上对反应混合物进行下行纸色谱分析,可在 1 - 2 小时内将所有可能的产物,包括[5'-32-P]AMP 和[5'-32-P]GMP 与其各自的 32-P 标记的 3',5'-环核苷酸完全定量分离。将纸条切割,插入不含闪烁剂的闪烁瓶中,通过切伦科夫计数法测定 32-P 产物。低于 0.5%的低空白值以及使用高比活度的 32-P 标记的环核苷酸底物,使该方法成为迄今为止描述的最可靠、最灵敏的磷酸二酯酶测定方法。由于使用 32-P 标记底物的这些测定方法具有简单性、特异性和高灵敏度,我们还设计了简单的条件来制备和纯化比活度超过 100 Ci/mmol 的[α-32-P]ATP、环[32-P]AMP 和环[32-P]GMP。这些高比活度的 32-P 标记的环核苷酸对这些新的测定方法很重要,并且在进行飞摩尔范围内的蛋白质结合或放射免疫同位素置换测定之前,对于跟踪从生物材料中纯化回收内源性环 AMP 和环 GMP 也很有用。
