Communication between Hin recombinase and Fis regulatory subunits during coordinate activation of Hin-catalyzed site-specific DNA inversion

Abstract The Hin recombinase catalyzes a site-specific recombination reaction that results in the reversible inversion of a 1-kbp segment of the Salmonella chromosome. The DNA inversion reaction catalyzed by the Salmonella Hin recombinase is a dynamic process proceeding through many intermediate stages, requiring multiple DNA sites and the Fis accessory protein. Biochemical analysis of this reaction has identified intermediate steps in the inversion reaction but has not yet revealed the process by which transition from one step to another occurs. Because transition from one reaction step to another proceeds through interactions between specific amino acids, and between amino acids and DNA bases, it is possible to study these transitions through mutational analysis of the proteins involved. We isolated a large number of mutants in the Hin recombinase that failed to carry out the DNA exchange reaction. We generated genetic tools that allowed the assignment of these mutants to specific transition steps in the recombination reaction. This genetic analysis, combined with further biochemical analysis, allowed us to define contributions by specific amino acids to individual steps in the DNA inversion reaction. Evidence is also presented in support of a model that Fis protein enhances the binding of Hin to the hixR recombination site. These studies identified regions within the Hin recombinase involved in specific transition steps of the reaction and provided new insights into the molecular details of the reaction mechanism.

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Xis and Fis proteins prevent site-specific DNA inversion in lysogens of phage HK022.

Journal of Bacteriology ◽

10.1128/jb.175.3.693-700.1993 ◽

1993 ◽

Vol 175 (3) ◽

pp. 693-700 ◽

Cited By ~ 16

Author(s):

L Dorgai ◽

J Oberto ◽

R A Weisberg

Keyword(s):

Site Specific ◽

Dna Inversion

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Purification and Characterization of the R64 Shufflon-Specific Recombinase

Journal of Bacteriology ◽

10.1128/jb.182.10.2787-2792.2000 ◽

2000 ◽

Vol 182 (10) ◽

pp. 2787-2792 ◽

Cited By ~ 14

Author(s):

Atsuko Gyohda ◽

Teruya Komano

Keyword(s):

Electrophoretic Analysis ◽

Recombination Reaction ◽

Site Specific ◽

Dna Inversion ◽

Repeat Sequences ◽

In Vitro Recombination ◽

Recombinase Gene ◽

A Site

ABSTRACT The shufflon, a multiple DNA inversion system in plasmid R64, consists of four invertible DNA segments which are separated and flanked by seven 19-bp repeat sequences. The product of a site-specific recombinase gene, rci, promotes site-specific recombination between any two of the inverted 19-bp repeat sequences of the shufflon. To analyze the molecular mechanism of this recombination reaction, Rci protein was overproduced and purified. The purified Rci protein promoted the in vitro recombination reaction between the inverted 19-bp repeats of supercoiled DNA of a plasmid carrying segment A of the R64 shufflon. The recombination reaction was enhanced by the bacterial host factor HU. Gel electrophoretic analysis indicated that the Rci protein specifically binds to the DNA segments carrying the 19-bp sequences. The binding affinity of the Rci protein to the four shufflon segments as well as four synthetic 19-bp sequences differed greatly: among the four 19-bp repeat sequences, the repeat-a and -d sequences displayed higher affinity to Rci protein. These results suggest that the differences in the affinity of Rci protein for the 19-bp repeat sequences determine the inversion frequencies of the four segments.

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