2022
DOI: 10.1038/s41422-022-00620-2
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Crystal structure and catalytic mechanism of the MbnBC holoenzyme required for methanobactin biosynthesis

Abstract: Methanobactins (Mbns) are a family of copper-binding peptides involved in copper uptake by methanotrophs, and are potential therapeutic agents for treating diseases characterized by disordered copper accumulation. Mbns are produced via modification of MbnA precursor peptides at cysteine residues catalyzed by the core biosynthetic machinery containing MbnB, an iron-dependent enzyme, and MbnC. However, mechanistic details underlying the catalysis of the MbnBC holoenzyme remain unclear. Here, we present crystal s… Show more

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Cited by 25 publications
(95 citation statements)
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“…Strikingly, residues 6 to 11 of the MbnA leader peptide form an extended β sheet with four-stranded antiparallel β sheet of MbnC, interacting with MbnC residues 158 to 162 ( SI Appendix , Fig. S12 ), a finding recently confirmed by the crystal structures of Rugamonas rubra ATCC 43154 and Vibrio caribbenthicus BAA-2122 MbnBCs in complex with their cognate MbnAs ( 22 ). This interaction resembles a common RiPP precursor peptide recognition element involving the formation of an extended β sheet between a winged helix-turn-helix motif of a biosynthetic enzyme and its substrate ( 23 , 24 ).…”
Section: Resultsmentioning
confidence: 65%
“…Strikingly, residues 6 to 11 of the MbnA leader peptide form an extended β sheet with four-stranded antiparallel β sheet of MbnC, interacting with MbnC residues 158 to 162 ( SI Appendix , Fig. S12 ), a finding recently confirmed by the crystal structures of Rugamonas rubra ATCC 43154 and Vibrio caribbenthicus BAA-2122 MbnBCs in complex with their cognate MbnAs ( 22 ). This interaction resembles a common RiPP precursor peptide recognition element involving the formation of an extended β sheet between a winged helix-turn-helix motif of a biosynthetic enzyme and its substrate ( 23 , 24 ).…”
Section: Resultsmentioning
confidence: 65%
“…To provide a visual approximation of the TglHI complex and its interaction with the substrate, the AlphaFold-Multimer algorithm 43 was used to predict the structure of a 1:1 heterodimer of TglHI both with and without the TglACys 19mer ( Figure S4a ). In the models, TglH did not contain iron, but in the trimeric complex, the C-terminal Cys of the 19mer was still located in the vicinity of the iron ligands (based on the structure of another DUF692 family member, PDB 3BWW, and a recent study on the DUF692 enzyme MbnB 18 ). The predicted structure of apo-TglH in the complex with TglI is similar to that of MbnB, illustrating the capability of AlphaFold (the prediction was performed before the MbnB structure was reported).…”
Section: Results and Discussionmentioning
confidence: 99%
“…MbnB contains three irons in the crystal structure, and the MbnABC complex shows threading of the substrate MbnA from MbnC to the active site of MbnB where a cysteine in the core peptide makes a direct contact with one of the irons. 18 In the predicted TglHI complex with the 19mer peptide of TglA, a very similar interaction is seen that starts at TglI and ends in the active site of TglH. In the AlphaFold model, the C-terminal domain of TglI adopts an RRE fold (three antiparallel β-strands followed by three α-helices), and the substrate TglA binds to the RRE; MbnC does not contain a canonical RRE fold, but its C-terminal domain contains a β-sheet that makes an antiparallel β-sheet interaction with the MbnA leader peptide 18 similar to the way substrate binds to β3 in RREs in other structurally characterized RiPP systems.…”
Section: Results and Discussionmentioning
confidence: 99%
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