The nickel-sirohydrochlorin formation mechanism of the ancestral class II chelatase CfbA in coenzyme F430 biosynthesis.

(2021) Chem Sci 12: 2172-2180

• PubMed: 34163982 Search on PubMedSearch on PubMed Central
• DOI: https://doi.org/10.1039/d0sc05439a
• Primary Citation Related Structures: 
  6M25, 6M26, 6M27, 6M28, 6M29, 6M2A, 6M2E, 6M2F, 6M2G, 6M2H


• PubMed Abstract: 
  

  The class II chelatase CfbA catalyzes Ni ²⁺ insertion into sirohydrochlorin (SHC) to yield the product nickel-sirohydrochlorin (Ni-SHC) during coenzyme F430 biosynthesis. CfbA is an important ancestor of all the class II chelatase family of enzymes, including SirB and CbiK/CbiX, functioning not only as a nickel-chelatase, but also as a cobalt-chelatase in vitro . Thus, CfbA is a key enzyme in terms of diversity and evolution of the chelatases catalyzing formation of metal-SHC-type of cofactors. However, the reaction mechanism of CfbA with Ni ²⁺ and Co ²⁺ remains elusive. To understand the structural basis of the underlying mechanisms and evolutionary aspects of the class II chelatases, X-ray crystal structures of Methanocaldococcus jannaschii wild-type CfbA with various ligands, including SHC, Ni ²⁺ , Ni-SHC, and Co ²⁺ were determined. Further, X-ray crystallographic snapshot analysis captured a unique Ni ²⁺ -SHC-His intermediate complex and Co-SHC-bound CfbA, which resulted from a more rapid chelatase reaction for Co ²⁺ than Ni ²⁺ . Meanwhile, an in vitro activity assay confirmed the different reaction rates for Ni ²⁺ and Co ²⁺ by CfbA. Based on these structural and functional analyses, the following substrate-SHC-assisted Ni ²⁺ insertion catalytic mechanism was proposed: Ni ²⁺ insertion to SHC is promoted by the support of an acetate side chain of SHC.

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Organizational Affiliation: 
• Department of Biochemistry and Molecular Biology, Graduate School of Science and Engineering, Saitama University Shimo-Okubo 255 Sakura Saitama 338-8570 Japan tfujishiro@mail.saitama-u.ac.jp +81-48-858-9293.