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Literature DB >> 33310191

Structural dissection of unnatural ginsenoside-biosynthetic UDP-glycosyltransferase Bs-YjiC from Bacillus subtilis for substrate promiscuity.

Longhai Dai¹, Lujiao Qin¹, Yumei Hu¹, Jian-Wen Huang¹, Zheyang Hu¹, Jian Min¹, Yuanxia Sun², Rey-Ting Guo³.

Abstract

Glycosylation catalyzed by uridine diphosphate-dependent glycosyltransferases (UGT) contributes to the chemical and functional diversity of a number of natural products. Bacillus subtilis Bs-YjiC is a robust and versatile UGT that holds potentials in the biosynthesis of unnatural bioactive ginsenosides. To understand the molecular mechanism underlying the substrate promiscuity of Bs-YjiC, we solved crystal structures of Bs-YjiC and its binary complex with uridine diphosphate (UDP) at resolution of 2.18 Å and 2.44 Å, respectively. Bs-YjiC adopts the classical GT-B fold containing the N-terminal and C-terminal domains that accommodate the sugar acceptor and UDP-glucose, respectively. Molecular docking indicates that the spacious sugar-acceptor binding pocket of Bs-YjiC might be responsible for its broad substrate spectrum and unique glycosylation patterns toward protopanaxadiol-(PPD) and PPD-type ginsenosides. Our study reveals the structural basis for the aglycone promiscuity of Bs-YjiC and will facilitate the protein engineering of Bs-YjiC to synthesize novel bioactive glycosylated compounds.

Entities: Chemical Species

Keywords: Bs-YjiC; Crystal structure; Glycosyltransferase; Unnatural ginsenoside biosynthesis; Uridine diphosphate-dependent glycosyltransferase

Mesh：

Substances：

Year: 2020 PMID： 33310191 DOI： 10.1016/j.bbrc.2020.11.104

Source DB: PubMed Journal: Biochem Biophys Res Commun ISSN： 0006-291X Impact factor: 3.575

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