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Molecular and Cellular Biology
|
July 1, 1992
Nucleotide sequence and transcriptional regulation of the yeast recombinational repair gene RAD51
G Basile, M Aker, R K Mortimer
Proceedings of the National Academy of Sciences of the United States of America
|
September 1, 1981
Mitotic chromosome loss in a radiation-sensitive strain of the yeast Saccharomyces cerevisiae
R K Mortimer, R Contopoulou, D Schild
Radiation Research
|
January 1, 1972
Radiation-induced recombination in Saccharomyces: isolation and genetic study of recombination-deficient mutants
U S Rodarte-Ramón, R K Mortimer
Genetics
|
March 1, 1981
An endomitotic effect of a cell cycle mutation of Saccharomyces cerevisiae
D Schild, H N Ananthaswamy, R K Mortimer
UCRL [Reports]. U.S. Atomic Energy Commission
|
February 19, 2014
EFFECTIVENESS OF IONIZING RADIATIONS FOR INDUCTION OF MUTATIONS AND LETHALITY IN DIPLOID SACCHAROMYCES CEREVISIAE, IN RELATION TO IONIZATION DENSITY AND OXYGEN TENSION. UCRL-11387
R K MORTIMER, T BRUSTAD, D V CORMACK
Proceedings of the National Academy of Sciences of the United States of America
|
January 1, 1972
Conversion-associated recombination in yeast (hybrids-meiosis-tetrads-marker loci-models)
D D Hurst, S Fogel, R K Mortimer
Molecular and Cellular Biology
|
July 1, 1989
Two DNA repair and recombination genes in Saccharomyces cerevisiae, RAD52 and RAD54, are induced during meiosis
G M Cole, D Schild, R K Mortimer
Research in Microbiology
|
October 19, 2000
Genotypic characterization of strains of commercial wine yeasts by tetrad analysis
J R Johnston, C Baccari, R K Mortimer
Yeast (Chichester, England)
|
December 1, 1994
Genome renewal: a new phenomenon revealed from a genetic study of 43 strains of Saccharomyces cerevisiae derived from natural fermentation of grape musts
R K Mortimer, P Romano, G Suzzi, et al.
Yeast (Chichester, England)
|
June 1, 1987
Analysis of DNA double strand breakage and repair using orthogonal field alternation gel electrophoresis
C R Contopoulou, V E Cook, R K Mortimer
Page
of 6
Search research articles
Search
Showing results (31-40 of 59) with videos related to
Sort By:
Page
of 6
Molecular and Cellular Biology
|
July 1, 1992
Nucleotide sequence and transcriptional regulation of the yeast recombinational repair gene RAD51
G Basile, M Aker, R K Mortimer
Proceedings of the National Academy of Sciences of the United States of America
|
September 1, 1981
Mitotic chromosome loss in a radiation-sensitive strain of the yeast Saccharomyces cerevisiae
R K Mortimer, R Contopoulou, D Schild
Radiation Research
|
January 1, 1972
Radiation-induced recombination in Saccharomyces: isolation and genetic study of recombination-deficient mutants
U S Rodarte-Ramón, R K Mortimer
Genetics
|
March 1, 1981
An endomitotic effect of a cell cycle mutation of Saccharomyces cerevisiae
D Schild, H N Ananthaswamy, R K Mortimer
UCRL [Reports]. U.S. Atomic Energy Commission
|
February 19, 2014
EFFECTIVENESS OF IONIZING RADIATIONS FOR INDUCTION OF MUTATIONS AND LETHALITY IN DIPLOID SACCHAROMYCES CEREVISIAE, IN RELATION TO IONIZATION DENSITY AND OXYGEN TENSION. UCRL-11387
R K MORTIMER, T BRUSTAD, D V CORMACK
Proceedings of the National Academy of Sciences of the United States of America
|
January 1, 1972
Conversion-associated recombination in yeast (hybrids-meiosis-tetrads-marker loci-models)
D D Hurst, S Fogel, R K Mortimer
Molecular and Cellular Biology
|
July 1, 1989
Two DNA repair and recombination genes in Saccharomyces cerevisiae, RAD52 and RAD54, are induced during meiosis
G M Cole, D Schild, R K Mortimer
Research in Microbiology
|
October 19, 2000
Genotypic characterization of strains of commercial wine yeasts by tetrad analysis
J R Johnston, C Baccari, R K Mortimer
Yeast (Chichester, England)
|
December 1, 1994
Genome renewal: a new phenomenon revealed from a genetic study of 43 strains of Saccharomyces cerevisiae derived from natural fermentation of grape musts
R K Mortimer, P Romano, G Suzzi, et al.
Yeast (Chichester, England)
|
June 1, 1987
Analysis of DNA double strand breakage and repair using orthogonal field alternation gel electrophoresis
C R Contopoulou, V E Cook, R K Mortimer
Page
of 6