Characterization of a unique interrupted adenylation domain that can catalyze three reactions

Taylor A. Lundy; Shogo Mori; Nishad Thamban Chandrika; Sylvie Garneau-Tsodikova

doi:10.1021/acschembio.9b00929

Characterization of a unique interrupted adenylation domain that can catalyze three reactions

Taylor A. Lundy
, Shogo Mori
, Nishad Thamban Chandrika
, Sylvie Garneau-Tsodikova

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

13 Scopus citations

Abstract

Interrupted adenylation (A) domains contain auxiliary domains within their structure and are a subject of growing interest in the field of nonribosomal peptide biosynthesis. They have been shown to possess intriguing functions and structure as well as promising engineering potential. Here, we present the characterization of an unprecedented type of interrupted A domain from the columbamides biosynthetic pathway, ColG(AM_sM_bA). This interrupted A domain contains two back-to-back methylation (M) domains within the same interruption site in the A domain, whereas previously, naturally occurring reported and characterized interrupted A domains harbored only one M domain. By a series of radiometric and mass spectrometry assays, we show that the first and second M domains site specifically methylate the side-chain oxygen and backbone nitrogen of l-Ser after the substrate is transferred onto a carrier thiolation domain, ColG(T). This is the first reported characterization of a dimethylating back-to-back interrupted A domain. The insights gained by this work lay the foundation for future combinatorial biosynthesis of site specifically methylated nonribosomal peptides.

Original language	English
Pages (from-to)	282-289
Number of pages	8
Journal	ACS Chemical Biology
Volume	15
Issue number	1
DOIs	https://doi.org/10.1021/acschembio.9b00929
State	Published - Jan 17 2020

Bibliographical note

Publisher Copyright:
© 2019 American Chemical Society.

Funding

This work was supported by a National Science Foundation (NSF) CAREER Award MCB-1149427 (to S.G.-T.) and by startup funds from the University of Kentucky College of Pharmacy (to S.G.-T.). T.A.L. was in part supported by a 2018-2019 and a 2019-2020 Pharmaceutical Sciences Excellence in Graduate Achievement Fellowship from the College of Pharmacy at the University of Kentucky as well as a 2019-2020 Predoctoral Fellowship in Pharmaceutical Sciences from the American Foundation of Pharmaceutical Education (AFPE). S.M. was in part supported by a 2018 long-term visit fellowship from the Yamada Science Foundation, Japan. We thank A. Garzan for providing the N-Me- l -Cys and N, S-diMe- l -Cys, for which the syntheses were previously published in ref . We thank the UK PharmNMR Center (in the College of Pharmacy) for NMR support. We also thank S. Kinison and J. Horn for their help overseeing the MS/MS analysis conducted by T.A.L.

Funders	Funder number
University of Kentucky College of Pharmacy	2018-2019
Yamada Science Foundation
National Science Foundation Arctic Social Science Program	MCB-1149427
American Foundation for Pharmaceutical Education
University of Kentucky

ASJC Scopus subject areas

Biochemistry
Molecular Medicine

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10.1021/acschembio.9b00929

Cite this

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abstract = "Interrupted adenylation (A) domains contain auxiliary domains within their structure and are a subject of growing interest in the field of nonribosomal peptide biosynthesis. They have been shown to possess intriguing functions and structure as well as promising engineering potential. Here, we present the characterization of an unprecedented type of interrupted A domain from the columbamides biosynthetic pathway, ColG(AMsMbA). This interrupted A domain contains two back-to-back methylation (M) domains within the same interruption site in the A domain, whereas previously, naturally occurring reported and characterized interrupted A domains harbored only one M domain. By a series of radiometric and mass spectrometry assays, we show that the first and second M domains site specifically methylate the side-chain oxygen and backbone nitrogen of l-Ser after the substrate is transferred onto a carrier thiolation domain, ColG(T). This is the first reported characterization of a dimethylating back-to-back interrupted A domain. The insights gained by this work lay the foundation for future combinatorial biosynthesis of site specifically methylated nonribosomal peptides.",

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AU - Lundy, Taylor A.

AU - Mori, Shogo

AU - Thamban Chandrika, Nishad

AU - Garneau-Tsodikova, Sylvie

PY - 2020/1/17

Y1 - 2020/1/17

N2 - Interrupted adenylation (A) domains contain auxiliary domains within their structure and are a subject of growing interest in the field of nonribosomal peptide biosynthesis. They have been shown to possess intriguing functions and structure as well as promising engineering potential. Here, we present the characterization of an unprecedented type of interrupted A domain from the columbamides biosynthetic pathway, ColG(AMsMbA). This interrupted A domain contains two back-to-back methylation (M) domains within the same interruption site in the A domain, whereas previously, naturally occurring reported and characterized interrupted A domains harbored only one M domain. By a series of radiometric and mass spectrometry assays, we show that the first and second M domains site specifically methylate the side-chain oxygen and backbone nitrogen of l-Ser after the substrate is transferred onto a carrier thiolation domain, ColG(T). This is the first reported characterization of a dimethylating back-to-back interrupted A domain. The insights gained by this work lay the foundation for future combinatorial biosynthesis of site specifically methylated nonribosomal peptides.

AB - Interrupted adenylation (A) domains contain auxiliary domains within their structure and are a subject of growing interest in the field of nonribosomal peptide biosynthesis. They have been shown to possess intriguing functions and structure as well as promising engineering potential. Here, we present the characterization of an unprecedented type of interrupted A domain from the columbamides biosynthetic pathway, ColG(AMsMbA). This interrupted A domain contains two back-to-back methylation (M) domains within the same interruption site in the A domain, whereas previously, naturally occurring reported and characterized interrupted A domains harbored only one M domain. By a series of radiometric and mass spectrometry assays, we show that the first and second M domains site specifically methylate the side-chain oxygen and backbone nitrogen of l-Ser after the substrate is transferred onto a carrier thiolation domain, ColG(T). This is the first reported characterization of a dimethylating back-to-back interrupted A domain. The insights gained by this work lay the foundation for future combinatorial biosynthesis of site specifically methylated nonribosomal peptides.

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Characterization of a unique interrupted adenylation domain that can catalyze three reactions

Abstract

Bibliographical note

Funding

ASJC Scopus subject areas

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