Developing deprotectase biocatalysts for synthesis†

IF 3.4 3区 化学 Q2 Chemistry
Lisa Kennedy, Mariyah Sajjad, Michael A. Herrera, Peter Szieber, Natasza Rybacka, Yinan Zhao, Craig Steven, Zainab Alghamdi, Ivan Zlatkov, Julie Hagen, Chloe Lauder, Natalie Rudolfova, Magdalena Abramiuk, Karolina Bolimowska, Daniel Joynt, Angelica Lucero, Gustavo Perez Ortiz, Annamaria Lilienkampf, Alison N. Hulme and Dominic J. Campopiano
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Abstract

Organic synthesis often requires multiple steps where a functional group (FG) is concealed from reaction by a protecting group (PG). Common PGs include N-carbobenzyloxy (Cbz or Z) of amines and tert-butyloxycarbonyl (OtBu) of acids. An essential step is the removal of the PG, but this often requires excess reagents, extensive time and can have low % yield. An overarching goal of biocatalysis is to use “green” or “enzymatic” methods to catalyse chemical transformations. One under-utilised approach is the use of “deprotectase” biocatalysts to selectively remove PGs from various organic substrates. The advantage of this methodology is the exquisite selectivity of the biocatalyst to only act on its target, leaving other FGs and PGs untouched. A number of deprotectase biocatalysts have been reported but they are not commonly used in mainstream synthetic routes. This study describes the construction of a cascade to deprotect doubly-protected amino acids. The well known Bacillus BS2 esterase was used to remove the OtBu PG from various amino acid substrates. The more obscure Sphingomonas Cbz-ase (amidohydrolase) was screened with a range of N-Cbz-modified amino acid substrates. We then combined both the BS2 and Cbz-ase together for a 1 pot, 2 step deprotection of the model substrate CBz-L-Phe OtBu to produce the free L-Phe. We also provide some insight into the residues involved in substrate recognition and catalysis using docked ligands in the crystal structure of BS2. Similarly, a structural model of the Cbz-ase identifies a potential di-metal binding site and reveals conserved active site residues. This new biocatalytic cascade should be further explored for its application in chemical synthesis.

Abstract Image

开发用于合成的去保护酶生物催化剂。
有机合成通常需要多个步骤,在这些步骤中,一个官能团(FG)被一个保护基团(PG)所掩盖,使其不能发生反应。常见的保护基包括胺的 N-苄氧基(Cbz 或 Z)和酸的叔丁氧基羰基(OtBu)。去除 PG 是一个重要步骤,但这通常需要过量的试剂和大量的时间,而且收率可能很低。生物催化的首要目标是使用 "绿色 "或 "酶 "方法催化化学转化。一种未得到充分利用的方法是使用 "去保护酶 "生物催化剂来选择性地去除各种有机底物中的 PG。这种方法的优点是生物催化剂具有精湛的选择性,只作用于目标物,而不触及其他 FG 和 PG。已有许多关于去保护酶生物催化剂的报道,但它们在主流合成路线中并不常用。本研究介绍了如何构建一个级联来对双重保护氨基酸进行脱保护。众所周知的芽孢杆菌 BS2 酯酶被用来去除各种氨基酸底物中的 OtBu PG。我们用一系列 N-Cbz 修饰的氨基酸底物筛选了较不知名的鞘氨醇单胞菌 Cbz 酶(酰胺水解酶)。然后,我们将 BS2 和 Cbz-ase 结合在一起,对模型底物 CBz-L-Phe OtBu 进行一锅两步脱保护,生成游离的 L-Phe。我们还利用 BS2 晶体结构中的对接配体,对底物识别和催化所涉及的残基进行了深入研究。同样,Cbz 酶的结构模型确定了一个潜在的二金属结合位点,并揭示了保守的活性位点残基。应进一步探索这种新的生物催化级联在化学合成中的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Faraday Discussions
Faraday Discussions CHEMISTRY, PHYSICAL-
CiteScore
4.90
自引率
0.00%
发文量
259
审稿时长
2.8 months
期刊介绍: Discussion summary and research papers from discussion meetings that focus on rapidly developing areas of physical chemistry and its interfaces
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