Functional analysis of Arg-308 mutants of Flp recombinase: Possible role of Arg-308 in coupling substrate binding to catalysis

Ronald L. Parsons; Barbara R. Evans; Lei Zheng; Makkuni Jayaram

Functional analysis of Arg-308 mutants of Flp recombinase: Possible role of Arg-308 in coupling substrate binding to catalysis

Ronald L. Parsons, Barbara R. Evans, Lei Zheng, Makkuni Jayaram

Geochemistry & Interfacial Science

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67 Scopus citations

Abstract

The arginine residue at position 308 in the Flp recombinase corresponds to the only invariant arginine within the Int family of recombinases. Alterations of this residue result in Flp variants that retain substrate recognition, but form weaker protein-DNA complexes than wild type Flp. Furthermore, their DNA cleavage activity is significantly diminished. A conservative change of R308K results in a functional Flp variant; however, this protein has a lowered temperature optimum for recombination. The Arg-308 mutants can be stabilized on the DNA substrate through cooperativity with a partner Flp mutant that is tight binding. Thus, interactions between Flp monomers must be a relevant feature of the normal recombination reaction.

Original language	English
Pages (from-to)	4527-4533
Number of pages	7
Journal	Journal of Biological Chemistry
Volume	265
Issue number	8
State	Published - Mar 15 1990

Cite this

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abstract = "The arginine residue at position 308 in the Flp recombinase corresponds to the only invariant arginine within the Int family of recombinases. Alterations of this residue result in Flp variants that retain substrate recognition, but form weaker protein-DNA complexes than wild type Flp. Furthermore, their DNA cleavage activity is significantly diminished. A conservative change of R308K results in a functional Flp variant; however, this protein has a lowered temperature optimum for recombination. The Arg-308 mutants can be stabilized on the DNA substrate through cooperativity with a partner Flp mutant that is tight binding. Thus, interactions between Flp monomers must be a relevant feature of the normal recombination reaction.",

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T1 - Functional analysis of Arg-308 mutants of Flp recombinase

T2 - Possible role of Arg-308 in coupling substrate binding to catalysis

AU - Parsons, Ronald L.

AU - Evans, Barbara R.

AU - Zheng, Lei

AU - Jayaram, Makkuni

PY - 1990/3/15

Y1 - 1990/3/15

N2 - The arginine residue at position 308 in the Flp recombinase corresponds to the only invariant arginine within the Int family of recombinases. Alterations of this residue result in Flp variants that retain substrate recognition, but form weaker protein-DNA complexes than wild type Flp. Furthermore, their DNA cleavage activity is significantly diminished. A conservative change of R308K results in a functional Flp variant; however, this protein has a lowered temperature optimum for recombination. The Arg-308 mutants can be stabilized on the DNA substrate through cooperativity with a partner Flp mutant that is tight binding. Thus, interactions between Flp monomers must be a relevant feature of the normal recombination reaction.

AB - The arginine residue at position 308 in the Flp recombinase corresponds to the only invariant arginine within the Int family of recombinases. Alterations of this residue result in Flp variants that retain substrate recognition, but form weaker protein-DNA complexes than wild type Flp. Furthermore, their DNA cleavage activity is significantly diminished. A conservative change of R308K results in a functional Flp variant; however, this protein has a lowered temperature optimum for recombination. The Arg-308 mutants can be stabilized on the DNA substrate through cooperativity with a partner Flp mutant that is tight binding. Thus, interactions between Flp monomers must be a relevant feature of the normal recombination reaction.

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JO - Journal of Biological Chemistry

JF - Journal of Biological Chemistry

IS - 8

ER -

Functional analysis of Arg-308 mutants of Flp recombinase: Possible role of Arg-308 in coupling substrate binding to catalysis

Abstract

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