Site-Selective Modification of Secondary Amine Moieties on Native Peptides, Proteins, and Natural Products with Ynones

Feng Gao; Mengyang Chang; Xiang Meng; Hang Xu; Giri Gnawali; Yue Dong; Byrdie Lopez; Wei Wang

doi:10.1021/acs.bioconjchem.3c00246

Site-Selective Modification of Secondary Amine Moieties on Native Peptides, Proteins, and Natural Products with Ynones

Feng Gao, Mengyang Chang, Xiang Meng, Hang Xu, Giri Gnawali, Yue Dong, Byrdie Lopez, Wei Wang

Pharmacology and Toxicology

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

Abstract

Site-selective modification of biologically relevant secondary amines in peptides, proteins, and natural products has been challenging due to the similar reactivity between primary and secondary amines. Even for the secondary amines, their reactivities are significantly influenced by their structures and environment. Herein, we report a ynone Michael bioconjugation method for selective modification of secondary amines in unprotected peptides and proteins and complex natural products. We show that fine tuning the electronic effect of the ynones enables controlling the Michael acceptor reactivity for the selective reaction with the structurally different secondary amines in densely functionalized complex structures and complicated biological environment.

Original language	English (US)
Pages (from-to)	1553-1562
Number of pages	10
Journal	Bioconjugate Chemistry
Volume	34
Issue number	9
DOIs	https://doi.org/10.1021/acs.bioconjchem.3c00246
State	Published - Sep 20 2023

ASJC Scopus subject areas

Biotechnology
Bioengineering
Biomedical Engineering
Pharmacology
Pharmaceutical Science
Organic Chemistry

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10.1021/acs.bioconjchem.3c00246

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abstract = "Site-selective modification of biologically relevant secondary amines in peptides, proteins, and natural products has been challenging due to the similar reactivity between primary and secondary amines. Even for the secondary amines, their reactivities are significantly influenced by their structures and environment. Herein, we report a ynone Michael bioconjugation method for selective modification of secondary amines in unprotected peptides and proteins and complex natural products. We show that fine tuning the electronic effect of the ynones enables controlling the Michael acceptor reactivity for the selective reaction with the structurally different secondary amines in densely functionalized complex structures and complicated biological environment.",

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AU - Gao, Feng

AU - Chang, Mengyang

AU - Meng, Xiang

AU - Xu, Hang

AU - Gnawali, Giri

AU - Dong, Yue

AU - Lopez, Byrdie

AU - Wang, Wei

PY - 2023/9/20

Y1 - 2023/9/20

N2 - Site-selective modification of biologically relevant secondary amines in peptides, proteins, and natural products has been challenging due to the similar reactivity between primary and secondary amines. Even for the secondary amines, their reactivities are significantly influenced by their structures and environment. Herein, we report a ynone Michael bioconjugation method for selective modification of secondary amines in unprotected peptides and proteins and complex natural products. We show that fine tuning the electronic effect of the ynones enables controlling the Michael acceptor reactivity for the selective reaction with the structurally different secondary amines in densely functionalized complex structures and complicated biological environment.

AB - Site-selective modification of biologically relevant secondary amines in peptides, proteins, and natural products has been challenging due to the similar reactivity between primary and secondary amines. Even for the secondary amines, their reactivities are significantly influenced by their structures and environment. Herein, we report a ynone Michael bioconjugation method for selective modification of secondary amines in unprotected peptides and proteins and complex natural products. We show that fine tuning the electronic effect of the ynones enables controlling the Michael acceptor reactivity for the selective reaction with the structurally different secondary amines in densely functionalized complex structures and complicated biological environment.

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Site-Selective Modification of Secondary Amine Moieties on Native Peptides, Proteins, and Natural Products with Ynones

Abstract

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