Cooperativity mutants of the gamma delta resolvase identify an essential interdimer interaction |
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Authors: | R E Hughes G F Hatfull P Rice T A Steitz N D Grindley |
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Institution: | Department of Molecular Biophysics and Biochemistry, Yale University, New Haven, Connecticut 06510. |
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Abstract: | gamma delta resolvase, a transposon-encoded site-specific recombinase, catalyzes the resolution of the cointegrate intermediate of gamma delta transposition. The recombination reaction involves the formation of a catalytic nucleoprotein complex whose structure is determined by specific protein-DNA and protein-protein interactions. We have isolated many resolvase mutants and have identified four that are unable to mediate a subclass of higher order protein-protein interactions necessary for recombination. This mutant phenotype is characterized by an inability to catalyze recombination, a loss of cooperative binding to res DNA, and a failure to induce looping out of the DNA between two resolvase binding sites within res. The amino acid side chains identified by the cooperativity mutants cluster on a surface of the protein that mediates an interaction between resolvase dimers in a crystallographic tetramer. We have therefore identified a region of resolvase that mediates an interdimer protein-protein interaction necessary for the formation of the recombinogenic synaptic intermediate. |
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