Isolation and analysis of arc repressor mutants: Evidence for an unusual mechanism of DNA binding

Andrew K. Vershon; James U. Bowie; Theresa M. Karplus; Robert T. Sauer

doi:10.1002/prot.340010404

Isolation and analysis of arc repressor mutants: Evidence for an unusual mechanism of DNA binding

Andrew K. Vershon, James U. Bowie, Theresa M. Karplus, Robert T. Sauer

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59 Scopus citations

Abstract

We have isolated 64 different missense mutations at 36 out of 53 residue positions in the Arc repressor of bacteriophage P22. Many of the mutant proteins with substitutions in the C‐terminal 40 residues of Arc have reduced intracellular levels and probably have altered structures or stabilities. Mutations in the N‐terminal ten residues of Arc cause large decreases in operator DNA binding affinity without affecting the ability of Arc to fold into a stable three‐dimensional structure. We argue that these N‐terminal residues are important for operator recognition but that they are not part of a conventional helix‐turn‐helix DNA binding structure. These results suggest that Arc may use a new mechanism for sequence specific DNA binding.

Original language	English (US)
Pages (from-to)	302-311
Number of pages	10
Journal	Proteins: Structure, Function, and Bioinformatics
Volume	1
Issue number	4
DOIs	https://doi.org/10.1002/prot.340010404
State	Published - Apr 1986
Externally published	Yes

All Science Journal Classification (ASJC) codes

Structural Biology
Biochemistry
Molecular Biology

Keywords

mutant proteins
operator binding
protein stability

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10.1002/prot.340010404

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title = "Isolation and analysis of arc repressor mutants: Evidence for an unusual mechanism of DNA binding",

abstract = "We have isolated 64 different missense mutations at 36 out of 53 residue positions in the Arc repressor of bacteriophage P22. Many of the mutant proteins with substitutions in the C‐terminal 40 residues of Arc have reduced intracellular levels and probably have altered structures or stabilities. Mutations in the N‐terminal ten residues of Arc cause large decreases in operator DNA binding affinity without affecting the ability of Arc to fold into a stable three‐dimensional structure. We argue that these N‐terminal residues are important for operator recognition but that they are not part of a conventional helix‐turn‐helix DNA binding structure. These results suggest that Arc may use a new mechanism for sequence specific DNA binding.",

keywords = "mutant proteins, operator binding, protein stability",

author = "Vershon, {Andrew K.} and Bowie, {James U.} and Karplus, {Theresa M.} and Sauer, {Robert T.}",

year = "1986",

month = apr,

doi = "10.1002/prot.340010404",

language = "English (US)",

volume = "1",

pages = "302--311",

journal = "Proteins: Structure, Function, and Bioinformatics",

issn = "0887-3585",

publisher = "Wiley-Liss Inc.",

number = "4",

}

TY - JOUR

T1 - Isolation and analysis of arc repressor mutants

T2 - Evidence for an unusual mechanism of DNA binding

AU - Vershon, Andrew K.

AU - Bowie, James U.

AU - Karplus, Theresa M.

AU - Sauer, Robert T.

PY - 1986/4

Y1 - 1986/4

N2 - We have isolated 64 different missense mutations at 36 out of 53 residue positions in the Arc repressor of bacteriophage P22. Many of the mutant proteins with substitutions in the C‐terminal 40 residues of Arc have reduced intracellular levels and probably have altered structures or stabilities. Mutations in the N‐terminal ten residues of Arc cause large decreases in operator DNA binding affinity without affecting the ability of Arc to fold into a stable three‐dimensional structure. We argue that these N‐terminal residues are important for operator recognition but that they are not part of a conventional helix‐turn‐helix DNA binding structure. These results suggest that Arc may use a new mechanism for sequence specific DNA binding.

AB - We have isolated 64 different missense mutations at 36 out of 53 residue positions in the Arc repressor of bacteriophage P22. Many of the mutant proteins with substitutions in the C‐terminal 40 residues of Arc have reduced intracellular levels and probably have altered structures or stabilities. Mutations in the N‐terminal ten residues of Arc cause large decreases in operator DNA binding affinity without affecting the ability of Arc to fold into a stable three‐dimensional structure. We argue that these N‐terminal residues are important for operator recognition but that they are not part of a conventional helix‐turn‐helix DNA binding structure. These results suggest that Arc may use a new mechanism for sequence specific DNA binding.

KW - mutant proteins

KW - operator binding

KW - protein stability

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DO - 10.1002/prot.340010404

M3 - Article

C2 - 3449859

AN - SCOPUS:0022952907

SN - 0887-3585

VL - 1

SP - 302

EP - 311

JO - Proteins: Structure, Function, and Bioinformatics

JF - Proteins: Structure, Function, and Bioinformatics

IS - 4

ER -

Isolation and analysis of arc repressor mutants: Evidence for an unusual mechanism of DNA binding

Abstract

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