Abstract

Lambda's recombination system, Red, works well in the absence of the host strand-invasion protein RecA, but only if the phage DNA is allowed to replicate. In the absence of RecA, Red appears to require double chain breaks at different locations in the two participating parents. These features suggests that in the absence of RecA protein, Red-mediated recombination proceeds by annealing of exposed complementary chains. The chains are presumably exposed by the action of lambda's exonuclease and annealed by the action of lambda's beta protein. This and other features of lambda Red recombination will be tested. E. coli's RecF pathway operates on lambda with features reminiscent of the Red pathway. Mutant derivatives of that pathway have altered properties. The RecF pathway and those derivatives will be examined with regard to the roles of double-chain breaks and of DNA replication in the recombination process. Yeast recombines by a pathway that shows strong similarities to lambda's Red pathway, as postulated by Szostak, Orr-Weaver, Rothstein and Stahl. Recombination is dependent on double chain cuts, and the exposure of 3' overhangs indicates the action of ana enzyme analagous to lambda's exonuclease. We will test other features of the model of Szostak et al. as well as other features of recombination in yeast.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Method to Extend Research in Time (MERIT) Award (R37)
Project #
5R37GM033677-15
Application #
2770929
Study Section
Special Emphasis Panel (NSS)
Project Start
1984-08-01
Project End
2002-08-31
Budget Start
1998-09-01
Budget End
1999-08-31
Support Year
15
Fiscal Year
1998
Total Cost
Indirect Cost

  Institution

Name
University of Oregon
Department
Type
Organized Research Units
DUNS #
948117312
City
Eugene
State
OR
Country
United States
Zip Code
97403

  Publications

Tarkowski, Trudee A; Mooney, Duane; Thomason, Lynn C et al. (2002) Gene products encoded in the ninR region of phage lambda participate in Red-mediated recombination. Genes Cells 7:351-63
Copenhaver, G P; Housworth, E A; Stahl, F W (2002) Crossover interference in Arabidopsis. Genetics 160:1631-9
Stahl, F; Bowers Jr, R; Mooney, D et al. (2001) Growth and recombination of phage lambda in the presence of exonuclease V from Bacillus subtilis. Mol Gen Genet 264:716-23
Stahl, F W; Hillers, K J (2000) Heteroduplex rejection in yeast? Genetics 154:1913-6
Hillers, K J; Stahl, F W (1999) The conversion gradient at HIS4 of Saccharomyces cerevisiae. I. Heteroduplex rejection and restoration of Mendelian segregation. Genetics 153:555-72
Thompson, D A; Stahl, F W (1999) Genetic control of recombination partner preference in yeast meiosis. Isolation and characterization of mutants elevated for meiotic unequal sister-chromatid recombination. Genetics 153:621-41
Foss, H M; Hillers, K J; Stahl, F W (1999) The conversion gradient at HIS4 of Saccharomyces cerevisiae. II. A role for mismatch repair directed by biased resolution of the recombinational intermediate. Genetics 153:573-83
Stahl, F W (1998) Recombination in phage lambda: one geneticist's historical perspective. Gene 223:95-102
Feher, V A; Zapf, J W; Hoch, J A et al. (1997) High-resolution NMR structure and backbone dynamics of the Bacillus subtilis response regulator, Spo0F: implications for phosphorylation and molecular recognition. Biochemistry 36:10015-25
Zhou, H; Dahlquist, F W (1997) Phosphotransfer site of the chemotaxis-specific protein kinase CheA as revealed by NMR. Biochemistry 36:699-710

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