参与肽类偶氮啉生物合成的新ATP结合基序的发现。

Discovery of a new ATP-binding motif involved in peptidic azoline biosynthesis.

作者信息

Dunbar Kyle L, Chekan Jonathan R, Cox Courtney L, Burkhart Brandon J, Nair Satish K, Mitchell Douglas A

机构信息

1] Department of Chemistry, University of Illinois at Urbana-Champaign, Urbana, Illinois, USA. [2] Institute for Genomic Biology, University of Illinois at Urbana-Champaign, Urbana, Illinois, USA. [3].

1] Department of Biochemistry, University of Illinois at Urbana-Champaign, Urbana, Illinois, USA. [2].

出版信息

Nat Chem Biol. 2014 Oct;10(10):823-9. doi: 10.1038/nchembio.1608. Epub 2014 Aug 17.

DOI:10.1038/nchembio.1608

PMID:25129028

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4167974/

Abstract

Despite intensive research, the cyclodehydratase responsible for azoline biogenesis in thiazole/oxazole-modified microcin (TOMM) natural products remains enigmatic. The collaboration of two proteins, C and D, is required for cyclodehydration. The C protein is homologous to E1 ubiquitin-activating enzymes, whereas the D protein is within the YcaO superfamily. Recent studies have demonstrated that TOMM YcaOs phosphorylate amide carbonyl oxygens to facilitate azoline formation. Here we report the X-ray crystal structure of an uncharacterized YcaO from Escherichia coli (Ec-YcaO). Ec-YcaO harbors an unprecedented fold and ATP-binding motif. This motif is conserved among TOMM YcaOs and is required for cyclodehydration. Furthermore, we demonstrate that the C protein regulates substrate binding and catalysis and that the proline-rich C terminus of the D protein is involved in C protein recognition and catalysis. This study identifies the YcaO active site and paves the way for the characterization of the numerous YcaO domains not associated with TOMM biosynthesis.

摘要

尽管进行了深入研究，但负责噻唑/恶唑修饰的微生物素（TOMM）天然产物中唑啉生物合成的环脱水酶仍然是个谜。环脱水需要两种蛋白质C和D协同作用。C蛋白与E1泛素激活酶同源，而D蛋白属于YcaO超家族。最近的研究表明，TOMM YcaO可使酰胺羰基氧磷酸化，以促进唑啉的形成。在此，我们报告了来自大肠杆菌的一种未表征的YcaO（Ec-YcaO）的X射线晶体结构。Ec-YcaO具有前所未有的折叠结构和ATP结合基序。该基序在TOMM YcaO中保守，是环脱水所必需的。此外，我们证明C蛋白调节底物结合和催化作用，并且D蛋白富含脯氨酸的C末端参与C蛋白的识别和催化。这项研究确定了YcaO的活性位点，并为表征众多与TOMM生物合成无关的YcaO结构域铺平了道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d3e2/4167974/080131cbe6ad/nihms607091f1.jpg

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参与肽类偶氮啉生物合成的新ATP结合基序的发现。

Discovery of a new ATP-binding motif involved in peptidic azoline biosynthesis.

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