鉴定靛红素生物合成基因簇：新型β-谷氨酸-β-脱羧酶 IdnL3 的特征。

Identification of the incednine biosynthetic gene cluster: characterization of novel β-glutamate-β-decarboxylase IdnL3.

机构信息

Department of Chemistry and Materials Science, Tokyo Institute of Technology, Meguro-ku, Tokyo, Japan.

Department of Chemistry, Tokyo Institute of Technology, Meguro-ku, Tokyo, Japan.

出版信息

J Antibiot (Tokyo). 2013 Dec;66(12):691-9. doi: 10.1038/ja.2013.76. Epub 2013 Aug 7.

DOI:10.1038/ja.2013.76

PMID:23921821

Abstract

A biosynthetic gene cluster for the 24-membered macrolactam antibiotic incednine was identified from the producer strain, Streptomyces sp. ML694-90F3. Among the putative incednine biosynthetic enzymes, a novel pyridoxal 5'-phosphate (PLP)-dependent β-glutamate-β-decarboxylase, IdnL3, was functionally characterized in vitro by demonstrating its (S)-3-aminobutyrate-forming activity with β-glutamate in the presence of PLP. Because (S)-3-aminobutyrate is known for the direct precursor of incednine, this enzyme supplies the unique β-amino acid starter unit. The identified gene cluster encodes five characteristic β-amino acid carrying enzymes, consisting of a pathway-specific ATP-dependent ligase, a discrete acyl carrier protein (ACP), β-aminoacyl-ACP β-amino group-protecting ATP-dependent ligase, dipeptidyl-ACP:PKS-loading ACP dipeptidyltransferase and a terminal amino acid peptidase, which are completely conserved in β-amino acid-containing macrolactam biosynthetic gene clusters. Overall, a plausible biosynthetic pathway for incednine was proposed.

摘要

从产生菌链霉菌 sp. ML694-90F3 中鉴定出了具有 24 个成员的大环内酯类抗生素英地宁的生物合成基因簇。在推测的英地宁生物合成酶中，新型吡哆醛 5'-磷酸 (PLP) 依赖性β-谷氨酸-β-脱羧酶 IdnL3 通过在 PLP 存在下用β-谷氨酸证明其 (S)-3-氨基丁酸形成活性在体外进行了功能表征。因为 (S)-3-氨基丁酸是英地宁的直接前体，所以该酶提供了独特的β-氨基酸起始单元。鉴定出的基因簇编码 5 种具有特征性的β-氨基酸携带酶，包括一种途径特异性的 ATP 依赖性连接酶、离散的酰基载体蛋白 (ACP)、β-氨基酸酰基-ACPβ-氨基保护 ATP 依赖性连接酶、二肽基-ACP：PKS-加载 ACP 二肽基转移酶和末端氨基酸肽酶，它们在含有β-氨基酸的大环内酯生物合成基因簇中完全保守。总的来说，提出了英地宁的合理生物合成途径。

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鉴定靛红素生物合成基因簇：新型β-谷氨酸-β-脱羧酶 IdnL3 的特征。

Identification of the incednine biosynthetic gene cluster: characterization of novel β-glutamate-β-decarboxylase IdnL3.

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