通过巴豆酰辅酶A羧化酶/还原酶由C2单位合成C5-二羧酸：乙基丙二酰辅酶A途径。

Synthesis of C5-dicarboxylic acids from C2-units involving crotonyl-CoA carboxylase/reductase: the ethylmalonyl-CoA pathway.

作者信息

Erb Tobias J, Berg Ivan A, Brecht Volker, Müller Michael, Fuchs Georg, Alber Birgit E

机构信息

Mikrobiologie, Institut für Biologie II, Fakultät für Chemie, Pharmazie und Geowissenschaften, Albert-Ludwigs-Universität Freiburg, Schänzlestrasse 1, 79104 Freiburg, Germany.

出版信息

Proc Natl Acad Sci U S A. 2007 Jun 19;104(25):10631-6. doi: 10.1073/pnas.0702791104. Epub 2007 Jun 4.

DOI:10.1073/pnas.0702791104

PMID:17548827

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1965564/

Abstract

Fifty years ago, Kornberg and Krebs established the glyoxylate cycle as the pathway for the synthesis of cell constituents from C2-units. However, since then, many bacteria have been described that do not contain isocitrate lyase, the key enzyme of this pathway. Here, a pathway termed the ethylmalonyl-CoA pathway operating in such organisms is described. Isotopically labeled acetate and bicarbonate were transformed to ethylmalonyl-CoA by cell extracts of acetate-grown, isocitrate lyase-negative Rhodobacter sphaeroides as determined by NMR spectroscopy. Crotonyl-CoA carboxylase/reductase, catalyzing crotonyl-CoA + CO2 + NADPH --> ethylmalonyl-CoA- + NADP+ was identified as the key enzyme of the ethylmalonyl-CoA pathway. The reductive carboxylation of an enoyl-thioester is a unique biochemical reaction, unprecedented in biology. The enzyme from R. sphaeroides was heterologously produced in Escherichia coli and characterized. Crotonyl-CoA carboxylase/reductase (or its gene) can be used as a marker for the presence of the ethylmalonyl-CoA pathway, which functions not only in acetyl-CoA assimilation. In Streptomyces sp., it may also supply precursors (ethylmalonyl-CoA) for antibiotic biosynthesis. For methylotrophic bacteria such as Methylobacterium extorquens, extension of the serine cycle with reactions of the ethylmalonyl-CoA pathway leads to a simplified scheme for isocitrate lyase-independent C1 assimilation.

摘要

五十年前，科恩伯格和克雷布斯确立了乙醛酸循环是利用二碳单位合成细胞成分的途径。然而，从那时起，已发现许多细菌不含该途径的关键酶——异柠檬酸裂合酶。本文描述了在这类生物中起作用的一条称为乙基丙二酰辅酶A途径。通过核磁共振光谱法测定，以乙酸盐为生长底物、异柠檬酸裂合酶阴性的球形红细菌的细胞提取物可将同位素标记的乙酸盐和碳酸氢盐转化为乙基丙二酰辅酶A。巴豆酰辅酶A羧化酶/还原酶催化巴豆酰辅酶A + CO₂ + NADPH → 乙基丙二酰辅酶A⁻ + NADP⁺，被确定为乙基丙二酰辅酶A途径的关键酶。烯酰硫酯的还原羧化是一种独特的生化反应，在生物学中前所未有的。球形红细菌的这种酶在大肠杆菌中进行了异源表达并对其特性进行了研究。巴豆酰辅酶A羧化酶/还原酶（或其基因）可作为乙基丙二酰辅酶A途径存在的标志物，该途径不仅在乙酰辅酶A同化中起作用。在链霉菌属中，它还可能为抗生素生物合成提供前体（乙基丙二酰辅酶A）。对于诸如扭脱甲基杆菌这样的甲基营养型细菌，用乙基丙二酰辅酶A途径的反应扩展丝氨酸循环可得到一个简化的、不依赖异柠檬酸裂合酶的一碳同化方案。

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