被忽视的研究土壤氮解聚的工具:使用硝基苯胺底物的氨基肽酶测定

IF 2.3 4区 农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY
Andrew J Margenot, Rachel C Daughtridge
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引用次数: 1

摘要

氨基肽酶是催化有机氮(N)解聚的细胞外水解酶之一,通常使用荧光底物进行测定。然而,20世纪60年代为研究氨肽酶而开发的基于对硝基苯胺(pNA)的显色底物尚未得到充分利用。为了评估pNA底物在测定土壤氨肽酶中的应用,进行了系统的文献综述。我们确定了61项研究,这些研究几乎都局限于测量亮氨酸和/或甘氨酸氨肽酶,尽管至少有六种其他氨肽酶特异性pNA底物可在商业上获得。规模(浆料与直接孵育)、基质类型、缓冲液pH、底物浓度、测定持续时间和温度、终止和比色法的测定参数表明,尽管在非生物水解和吸光度最大值方面存在重要差异,但pNA与pNP底物缺乏标准化和混淆。未来的研究应系统地评估和标准化这些参数,并评估其他氨基酸特异性氨肽酶对碳(C)、氮和硫(S)循环的敏感性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Overlooked tools for studying soil nitrogen depolymerization: Aminopeptidase assays using nitroanilide substrates

Overlooked tools for studying soil nitrogen depolymerization: Aminopeptidase assays using nitroanilide substrates

Aminopeptidases are one of the extracellular hydrolytic enzymes that catalyze organic nitrogen (N) depolymerization and are commonly assayed using fluorogenic substrates. However, chromogenic substrates based on para-nitroaniline (pNA) developed for the study of aminopeptidases in the 1960s have been underutilized. To gauge the use of pNA substrates to assay soil aminopeptidases, a systematic literature review was conducted. We identified 61 studies that were nearly all limited to measuring leucine and/or glycine aminopeptidases, despite the commercial availability of at least six other aminopeptidase-specific pNA substrates. Assay parameters of scale (slurry vs. direct incubations), matrix type, buffer pH, substrate concentration, assay duration and temperature, termination, and colorimetry indicated a lack of standardization and a confusion of pNA with pNP substrates despite important differences in abiotic hydrolysis and absorbance maxima. Future studies should systematically evaluate and standardize these parameters and assess the sensitivity of other amino acid-specific aminopeptidases to carbon (C), N, and sulfur (S) cycling.

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来源期刊
CiteScore
3.70
自引率
3.80%
发文量
28
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