Peptide chemical ligation inside living cells: in vivo generation of a circular protein domain

Julio A. Camarero; David Fushman; David Cowburn; Tom W. Muir

doi:10.1016/S0968-0896(01)00217-6

Peptide chemical ligation inside living cells: in vivo generation of a circular protein domain

Julio A. Camarero, David Fushman, David Cowburn, Tom W. Muir

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

50 Scopus citations

Abstract

Here we describe the first example of a peptide chemical ligation reaction performed inside a living cell. A cell-based native chemical ligation approach was developed and used to generate a circular version of the N-terminal Src homology 3 (SH3) domain from the murine c-Crk adapter protein inside Escherichia coli cells. The in vivo cyclization reaction was extremely efficient and the resulting circular protein domain was fully biologically active and able to adopt the native SH3 folded structure. This work represents an important step towards the in vivo generation of small backbone cyclic peptides for use in basic biological research.

Original language	English (US)
Pages (from-to)	2479-2484
Number of pages	6
Journal	Bioorganic and Medicinal Chemistry
Volume	9
Issue number	9
DOIs	https://doi.org/10.1016/S0968-0896(01)00217-6
State	Published - 2001
Externally published	Yes

ASJC Scopus subject areas

Biochemistry
Molecular Medicine
Molecular Biology
Pharmaceutical Science
Drug Discovery
Clinical Biochemistry
Organic Chemistry

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10.1016/S0968-0896(01)00217-6

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title = "Peptide chemical ligation inside living cells: in vivo generation of a circular protein domain",

abstract = "Here we describe the first example of a peptide chemical ligation reaction performed inside a living cell. A cell-based native chemical ligation approach was developed and used to generate a circular version of the N-terminal Src homology 3 (SH3) domain from the murine c-Crk adapter protein inside Escherichia coli cells. The in vivo cyclization reaction was extremely efficient and the resulting circular protein domain was fully biologically active and able to adopt the native SH3 folded structure. This work represents an important step towards the in vivo generation of small backbone cyclic peptides for use in basic biological research.",

author = "Camarero, {Julio A.} and David Fushman and David Cowburn and Muir, {Tom W.}",

note = "Funding Information: This work was supported by NIH grant (GM55843, T.W.M). T.W.M. is an Albert P. Sloan Fellow. J.A.C. was supported by a fellowship from the Burroughs-Wellcome Fund.",

year = "2001",

doi = "10.1016/S0968-0896(01)00217-6",

language = "English (US)",

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TY - JOUR

T1 - Peptide chemical ligation inside living cells

T2 - in vivo generation of a circular protein domain

AU - Camarero, Julio A.

AU - Fushman, David

AU - Cowburn, David

AU - Muir, Tom W.

N1 - Funding Information: This work was supported by NIH grant (GM55843, T.W.M). T.W.M. is an Albert P. Sloan Fellow. J.A.C. was supported by a fellowship from the Burroughs-Wellcome Fund.

PY - 2001

Y1 - 2001

N2 - Here we describe the first example of a peptide chemical ligation reaction performed inside a living cell. A cell-based native chemical ligation approach was developed and used to generate a circular version of the N-terminal Src homology 3 (SH3) domain from the murine c-Crk adapter protein inside Escherichia coli cells. The in vivo cyclization reaction was extremely efficient and the resulting circular protein domain was fully biologically active and able to adopt the native SH3 folded structure. This work represents an important step towards the in vivo generation of small backbone cyclic peptides for use in basic biological research.

AB - Here we describe the first example of a peptide chemical ligation reaction performed inside a living cell. A cell-based native chemical ligation approach was developed and used to generate a circular version of the N-terminal Src homology 3 (SH3) domain from the murine c-Crk adapter protein inside Escherichia coli cells. The in vivo cyclization reaction was extremely efficient and the resulting circular protein domain was fully biologically active and able to adopt the native SH3 folded structure. This work represents an important step towards the in vivo generation of small backbone cyclic peptides for use in basic biological research.

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Peptide chemical ligation inside living cells: in vivo generation of a circular protein domain

Abstract

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