A vitamin K-dependent carboxylase orthologue is involved in antibiotic biosynthesis

Brian J.C. Law; Ying Zhuo; Michael Winn; Daniel Francis; Yingxin Zhang; Markiyan Samborskyy; Annabel Murphy; Lujing Ren; Peter F. Leadlay; Jason Micklefield

doi:10.1038/s41929-018-0178-2

A vitamin K-dependent carboxylase orthologue is involved in antibiotic biosynthesis

Brian J.C. Law, Ying Zhuo, Michael Winn, Daniel Francis, Yingxin Zhang, Markiyan Samborskyy, Annabel Murphy, Lujing Ren, Peter F. Leadlay, Jason Micklefield

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

Vitamin K-dependent carboxylase (VKDC) enzymes modify glutamate residues in mammalian vitamin K-dependent proteins, generating γ-carboxyglutamic acids with malonate moieties that mediate important physiological responses such as blood coagulation. Proteins with sequence similarity to mammalian VKDC are also found in bacteria; however, their function remains unknown. The antibiotic malonomycin from Streptomyces rimosus contains an unusual malonate group, of unknown origin, that is essential for its biological activity. Here, we show that a bacterial VKDC orthologue (MloH) is responsible for the malonic acid moiety in malonomycin. Using CRISPR/Cas9 gene editing, complementation and mutagenesis experiments, this VKDC-like enzyme was shown to α-carboxylate an aspartyl residue within a hybrid polyketide–nonribosomal peptide intermediate during malonomycin biosynthesis. This study reveals a highly unusual biosynthetic pathway to malonic acid-containing metabolites, providing a functional role for VKDC-like proteins in prokaryotes and a vitamin K-dependent carboxylation reaction with a non-proteinogenic substrate.

Original language	English
Pages (from-to)	977-984
Number of pages	8
Journal	Nature Catalysis
Volume	1
Issue number	12
DOIs	https://doi.org/10.1038/s41929-018-0178-2
State	Published - 1 Dec 2018
Externally published	Yes

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title = "A vitamin K-dependent carboxylase orthologue is involved in antibiotic biosynthesis",

abstract = "Vitamin K-dependent carboxylase (VKDC) enzymes modify glutamate residues in mammalian vitamin K-dependent proteins, generating γ-carboxyglutamic acids with malonate moieties that mediate important physiological responses such as blood coagulation. Proteins with sequence similarity to mammalian VKDC are also found in bacteria; however, their function remains unknown. The antibiotic malonomycin from Streptomyces rimosus contains an unusual malonate group, of unknown origin, that is essential for its biological activity. Here, we show that a bacterial VKDC orthologue (MloH) is responsible for the malonic acid moiety in malonomycin. Using CRISPR/Cas9 gene editing, complementation and mutagenesis experiments, this VKDC-like enzyme was shown to α-carboxylate an aspartyl residue within a hybrid polyketide–nonribosomal peptide intermediate during malonomycin biosynthesis. This study reveals a highly unusual biosynthetic pathway to malonic acid-containing metabolites, providing a functional role for VKDC-like proteins in prokaryotes and a vitamin K-dependent carboxylation reaction with a non-proteinogenic substrate.",

author = "Law, {Brian J.C.} and Ying Zhuo and Michael Winn and Daniel Francis and Yingxin Zhang and Markiyan Samborskyy and Annabel Murphy and Lujing Ren and Leadlay, {Peter F.} and Jason Micklefield",

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year = "2018",

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doi = "10.1038/s41929-018-0178-2",

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T1 - A vitamin K-dependent carboxylase orthologue is involved in antibiotic biosynthesis

AU - Law, Brian J.C.

AU - Zhuo, Ying

AU - Winn, Michael

AU - Francis, Daniel

AU - Zhang, Yingxin

AU - Samborskyy, Markiyan

AU - Murphy, Annabel

AU - Ren, Lujing

AU - Leadlay, Peter F.

AU - Micklefield, Jason

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Vitamin K-dependent carboxylase (VKDC) enzymes modify glutamate residues in mammalian vitamin K-dependent proteins, generating γ-carboxyglutamic acids with malonate moieties that mediate important physiological responses such as blood coagulation. Proteins with sequence similarity to mammalian VKDC are also found in bacteria; however, their function remains unknown. The antibiotic malonomycin from Streptomyces rimosus contains an unusual malonate group, of unknown origin, that is essential for its biological activity. Here, we show that a bacterial VKDC orthologue (MloH) is responsible for the malonic acid moiety in malonomycin. Using CRISPR/Cas9 gene editing, complementation and mutagenesis experiments, this VKDC-like enzyme was shown to α-carboxylate an aspartyl residue within a hybrid polyketide–nonribosomal peptide intermediate during malonomycin biosynthesis. This study reveals a highly unusual biosynthetic pathway to malonic acid-containing metabolites, providing a functional role for VKDC-like proteins in prokaryotes and a vitamin K-dependent carboxylation reaction with a non-proteinogenic substrate.

AB - Vitamin K-dependent carboxylase (VKDC) enzymes modify glutamate residues in mammalian vitamin K-dependent proteins, generating γ-carboxyglutamic acids with malonate moieties that mediate important physiological responses such as blood coagulation. Proteins with sequence similarity to mammalian VKDC are also found in bacteria; however, their function remains unknown. The antibiotic malonomycin from Streptomyces rimosus contains an unusual malonate group, of unknown origin, that is essential for its biological activity. Here, we show that a bacterial VKDC orthologue (MloH) is responsible for the malonic acid moiety in malonomycin. Using CRISPR/Cas9 gene editing, complementation and mutagenesis experiments, this VKDC-like enzyme was shown to α-carboxylate an aspartyl residue within a hybrid polyketide–nonribosomal peptide intermediate during malonomycin biosynthesis. This study reveals a highly unusual biosynthetic pathway to malonic acid-containing metabolites, providing a functional role for VKDC-like proteins in prokaryotes and a vitamin K-dependent carboxylation reaction with a non-proteinogenic substrate.

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DO - 10.1038/s41929-018-0178-2

M3 - 文章

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VL - 1

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JO - Nature Catalysis

JF - Nature Catalysis

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ER -

A vitamin K-dependent carboxylase orthologue is involved in antibiotic biosynthesis

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