Literature DB >> 34306804

Single-step Replacement of an Unreactive C-H Bond by a C-S Bond Using Polysulfide as the Direct Sulfur Source in Anaerobic Ergothioneine Biosynthesis.

Ronghai Cheng1, Lian Wu2,3,4, Rui Lai1, Chao Peng5, Nathchar Naowarojna1, Weiyao Hu1,6, Xinhao Li6, Stephen A Whelan1, Norman Lee1, Juan Lopez1, Changming Zhao1,7, Youhua Yong2, Jiahui Xue8, Xuefeng Jiang8, Mark W Grinstaff1,9, Zixin Deng7, Jiesheng Chen6, Qiang Cui1, Jiahai Zhou2, Pinghua Liu1.   

Abstract

Ergothioneine, a natural longevity vitamin and antioxidant, is a thiol-histidine derivative. Recently, two types of biosynthetic pathways were reported. In the aerobic ergothioneine biosynthesis, a non-heme iron enzyme incorporates a sulfoxide to an sp2 C-H bond in trimethyl-histidine (hercynine) through oxidation reactions. In contrast, in the anaerobic ergothioneine biosynthetic pathway in a green sulfur bacterium, Chlorobium limicola, a rhodanese domain containing protein (EanB) directly replaces this unreactive hercynine C-H bond with a C-S bond. Herein, we demonstrate that polysulfide (HSSnSR) is the direct sulfur-source in EanB-catalysis. After identifying EanB's substrates, X-ray crystallography of several intermediate states along with mass spectrometry results provide additional mechanistic details for this reaction. Further, quantum mechanics/molecular mechanics (QM/MM) calculations reveal that protonation of Nπ of hercynine by Tyr353 with the assistance of Thr414 is a key activation step for the hercynine sp2 C-H bond in this trans-sulfuration reaction.

Entities:  

Keywords:  C-H bond activation; crystal structure; ergothioneine biosynthesis; polysulfide; transsulfuration

Year:  2020        PMID: 34306804      PMCID: PMC8302205          DOI: 10.1021/acscatal.0c01809

Source DB:  PubMed          Journal:  ACS Catal            Impact factor:   13.084


  76 in total

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  5 in total

1.  Implications for an imidazol-2-yl carbene intermediate in the rhodanase-catalyzed C-S bond formation reaction of anaerobic ergothioneine biosynthesis.

Authors:  Ronghai Cheng; Rui Lai; Chao Peng; Juan Lopez; Zhihong Li; Nathchar Naowarojna; Kelin Li; Christina Wong; Norman Lee; Stephen A Whelan; Lu Qiao; Mark W Grinstaff; Jiangyun Wang; Qiang Cui; Pinghua Liu
Journal:  ACS Catal       Date:  2021-03-01       Impact factor: 13.084

Review 2.  Ergothioneine, Ovothiol A, and Selenoneine-Histidine-Derived, Biologically Significant, Trace Global Alkaloids.

Authors:  Geoffrey A Cordell; Sujeewa N S Lamahewage
Journal:  Molecules       Date:  2022-04-21       Impact factor: 4.927

3.  OvoAMtht from Methyloversatilis thermotolerans ovothiol biosynthesis is a bifunction enzyme: thiol oxygenase and sulfoxide synthase activities.

Authors:  Ronghai Cheng; Andrew C Weitz; Jared Paris; Yijie Tang; Jingyu Zhang; Heng Song; Nathchar Naowarojna; Kelin Li; Lu Qiao; Juan Lopez; Mark W Grinstaff; Lixin Zhang; Yisong Guo; Sean Elliott; Pinghua Liu
Journal:  Chem Sci       Date:  2022-03-02       Impact factor: 9.825

4.  Discovery and Characterization of the Metallopterin-Dependent Ergothioneine Synthase from Caldithrix abyssi.

Authors:  Mariia A Beliaeva; Florian P Seebeck
Journal:  JACS Au       Date:  2022-08-16

5.  Metabolic Adaptations to Marine Environments: Molecular Diversity and Evolution of Ovothiol Biosynthesis in Bacteria.

Authors:  Mariarita Brancaccio; Michael Tangherlini; Roberto Danovaro; Immacolata Castellano
Journal:  Genome Biol Evol       Date:  2021-09-01       Impact factor: 3.416
  5 in total

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