Current Status and Future of Nitrile Catalysis using Key Nitrilases Enzymes and their Biotechnological Impact

The Open Biotechnology Journal Pub Date : 2021-03-31 DOI:10.2174/1874070702115010071

A. Bhatt, Darshankumar Prajapati, A. Gupte

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引用次数: 1

Abstract

Nitriles are organic compounds consisting of −C≡N group. They are frequently known to occur in nature and as intermediate by-products and waste products of various chemical, pharmaceutical, and agricultural industries. They are also found in fruit pits, cabbage, cauliflower, and sprouts, which are released upon hydrolysis. Nitrile converting enzymes like nitrilases have been extracted from microorganisms and plants. Nitrilasemediated biocatalysis reactions have continuously aroused widespread interest to scientists and entrepreneurs in organic synthesis. Nitrile converting biocatalysts (Nitrilases) are now of substantial industrial interest from the perspective of treating toxic nitrile and cyanide-containing compounds. Nitrile degrading enzymes generally consist of nitrilases and amidases. The aim of the current review is to summarize the recent advancements on regioselective nitrilases concerning their fundamental researches and their application in the synthesis of series of high-value fine chemicals and pharmaceuticals. The present review also focuses on the utility of nitrile converting enzyme, sources, properties, classification, structure, and applications as well.

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利用关键腈酶催化腈的现状和未来及其生物技术影响

腈是由−C≡N基团组成的有机化合物。它们通常存在于自然界中，是各种化学、制药和农业工业的中间副产品和废物。它们也存在于果核、卷心菜、花椰菜和豆芽中，它们在水解后会释放出来。像腈酶这样的腈转化酶已经从微生物和植物中提取出来。腈介导的生物催化反应不断引起科学家和企业家对有机合成的广泛兴趣。从处理有毒的腈和含氰化合物的角度来看，丁腈转化生物催化剂(腈酶)现在具有重要的工业意义。丁腈降解酶一般由腈酶和酰胺酶组成。本文综述了近年来区域选择性腈酶的基础研究及其在一系列高价值精细化学品和药物合成中的应用。综述了丁腈转化酶的用途、来源、性质、分类、结构和应用。

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The Open Biotechnology Journal

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