Redox-based reagents for chemoselective methionine bioconjugation

Shixian Lin; Xiaoyu Yang; Shang Jia; Amy M. Weeks; Michael Hornsby; Peter S. Lee; Rita V. Nichiporuk; Anthony T. Iavarone; James A. Wells; F. Dean Toste; Christopher J. Chang

doi:10.1126/science.aal3316

Redox-based reagents for chemoselective methionine bioconjugation

Shixian Lin, Xiaoyu Yang, Shang Jia, Amy M. Weeks, Michael Hornsby, Peter S. Lee, Rita V. Nichiporuk, Anthony T. Iavarone, James A. Wells, F. Dean Toste, Christopher J. Chang

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

392 Scopus citations

Abstract

Cysteine can be specifically functionalized by a myriad of acid-base conjugation strategies for applications ranging from probing protein function to antibody-drug conjugates and proteomics. In contrast, selective ligation to the other sulfur-containing amino acid, methionine, has been precluded by its intrinsically weaker nucleophilicity. Here, we report a strategy for chemoselective methionine bioconjugation through redox reactivity, using oxaziridine-based reagents to achieve highly selective, rapid, and robust methionine labeling under a range of biocompatible reaction conditions. We highlight the broad utility of this conjugation method to enable precise addition of payloads to proteins, synthesis of antibody-drug conjugates, and identification of hyperreactive methionine residues in whole proteomes.

Original language	English (US)
Pages (from-to)	597-602
Number of pages	6
Journal	Science
Volume	355
Issue number	6325
DOIs	https://doi.org/10.1126/science.aal3316
State	Published - Feb 10 2017
Externally published	Yes

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title = "Redox-based reagents for chemoselective methionine bioconjugation",

abstract = "Cysteine can be specifically functionalized by a myriad of acid-base conjugation strategies for applications ranging from probing protein function to antibody-drug conjugates and proteomics. In contrast, selective ligation to the other sulfur-containing amino acid, methionine, has been precluded by its intrinsically weaker nucleophilicity. Here, we report a strategy for chemoselective methionine bioconjugation through redox reactivity, using oxaziridine-based reagents to achieve highly selective, rapid, and robust methionine labeling under a range of biocompatible reaction conditions. We highlight the broad utility of this conjugation method to enable precise addition of payloads to proteins, synthesis of antibody-drug conjugates, and identification of hyperreactive methionine residues in whole proteomes.",

author = "Shixian Lin and Xiaoyu Yang and Shang Jia and Weeks, \{Amy M.\} and Michael Hornsby and Lee, \{Peter S.\} and Nichiporuk, \{Rita V.\} and Iavarone, \{Anthony T.\} and Wells, \{James A.\} and Toste, \{F. Dean\} and Chang, \{Christopher J.\}",

year = "2017",

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day = "10",

doi = "10.1126/science.aal3316",

language = "English (US)",

volume = "355",

pages = "597--602",

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TY - JOUR

T1 - Redox-based reagents for chemoselective methionine bioconjugation

AU - Lin, Shixian

AU - Yang, Xiaoyu

AU - Jia, Shang

AU - Weeks, Amy M.

AU - Hornsby, Michael

AU - Lee, Peter S.

AU - Nichiporuk, Rita V.

AU - Iavarone, Anthony T.

AU - Wells, James A.

AU - Toste, F. Dean

AU - Chang, Christopher J.

PY - 2017/2/10

Y1 - 2017/2/10

N2 - Cysteine can be specifically functionalized by a myriad of acid-base conjugation strategies for applications ranging from probing protein function to antibody-drug conjugates and proteomics. In contrast, selective ligation to the other sulfur-containing amino acid, methionine, has been precluded by its intrinsically weaker nucleophilicity. Here, we report a strategy for chemoselective methionine bioconjugation through redox reactivity, using oxaziridine-based reagents to achieve highly selective, rapid, and robust methionine labeling under a range of biocompatible reaction conditions. We highlight the broad utility of this conjugation method to enable precise addition of payloads to proteins, synthesis of antibody-drug conjugates, and identification of hyperreactive methionine residues in whole proteomes.

AB - Cysteine can be specifically functionalized by a myriad of acid-base conjugation strategies for applications ranging from probing protein function to antibody-drug conjugates and proteomics. In contrast, selective ligation to the other sulfur-containing amino acid, methionine, has been precluded by its intrinsically weaker nucleophilicity. Here, we report a strategy for chemoselective methionine bioconjugation through redox reactivity, using oxaziridine-based reagents to achieve highly selective, rapid, and robust methionine labeling under a range of biocompatible reaction conditions. We highlight the broad utility of this conjugation method to enable precise addition of payloads to proteins, synthesis of antibody-drug conjugates, and identification of hyperreactive methionine residues in whole proteomes.

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ER -

Redox-based reagents for chemoselective methionine bioconjugation

Abstract

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