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W Siede

Showing results (31-40 of 51) with videos related to

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Genetics|January 1, 1987
The RAD24 (= Rs1) gene product of Saccharomyces cerevisiae participates in two different pathways of DNA repairF Eckardt-Schupp, W Siede, J C Game
Proceedings of the National Academy of Sciences of the United States of America|September 1, 1993
RAD9-dependent G1 arrest defines a second checkpoint for damaged DNA in the cell cycle of Saccharomyces cerevisiaeW Siede, A S Friedberg, E C Friedberg
Journal of Bacteriology|October 1, 1993
Evidence that the Rad1 and Rad10 proteins of Saccharomyces cerevisiae participate as a complex in nucleotide excision repair of UV radiation damageW Siede, A S Friedberg, E C Friedberg
Molecular & General Genetics : MGG|January 1, 1981
Isolation of yeast mutants sensitive to the bifunctional alkylating agent nitrogen mustardA Ruhland, E Haase, W Siede, et al.
Mutation Research|January 2, 1996
Repair and processing of DNA damage: a summary of recent progressG B Sancar, W Siede, A A van Zeeland
Genetics|October 1, 1994
Characterization of G1 checkpoint control in the yeast Saccharomyces cerevisiae following exposure to DNA-damaging agentsW Siede, A S Friedberg, I Dianova, et al.
Medizinische Klinik (Munich, Germany : 1983)|November 25, 1988
[The activity of angiotensin converting enzyme in various patient groups and its stability in serum]G Oremek, U Seiffert, T Walther, et al.
Journal of Bacteriology|January 1, 1995
Characterization of a mutant strain of Saccharomyces cerevisiae with a deletion of the RAD27 gene, a structural homolog of the RAD2 nucleotide excision repair geneM S Reagan, C Pittenger, W Siede, et al.
Journal of Bacteriology|October 1, 1996
The Saccharomyces cerevisiae MEC1 gene, which encodes a homolog of the human ATM gene product, is required for G1 arrest following radiation treatmentW Siede, J B Allen, S J Elledge, et al.
Nucleic Acids Research|May 1, 1996
Cloning and characterization of RAD17, a gene controlling cell cycle responses to DNA damage in Saccharomyces cerevisiaeW Siede, G Nusspaumer, V Portillo, et al.
Pageof 6

Showing results (31-40 of 51) with videos related to

Sort By:
Pageof 6
Genetics|January 1, 1987
The RAD24 (= Rs1) gene product of Saccharomyces cerevisiae participates in two different pathways of DNA repairF Eckardt-Schupp, W Siede, J C Game
Proceedings of the National Academy of Sciences of the United States of America|September 1, 1993
RAD9-dependent G1 arrest defines a second checkpoint for damaged DNA in the cell cycle of Saccharomyces cerevisiaeW Siede, A S Friedberg, E C Friedberg
Journal of Bacteriology|October 1, 1993
Evidence that the Rad1 and Rad10 proteins of Saccharomyces cerevisiae participate as a complex in nucleotide excision repair of UV radiation damageW Siede, A S Friedberg, E C Friedberg
Molecular & General Genetics : MGG|January 1, 1981
Isolation of yeast mutants sensitive to the bifunctional alkylating agent nitrogen mustardA Ruhland, E Haase, W Siede, et al.
Mutation Research|January 2, 1996
Repair and processing of DNA damage: a summary of recent progressG B Sancar, W Siede, A A van Zeeland
Genetics|October 1, 1994
Characterization of G1 checkpoint control in the yeast Saccharomyces cerevisiae following exposure to DNA-damaging agentsW Siede, A S Friedberg, I Dianova, et al.
Medizinische Klinik (Munich, Germany : 1983)|November 25, 1988
[The activity of angiotensin converting enzyme in various patient groups and its stability in serum]G Oremek, U Seiffert, T Walther, et al.
Journal of Bacteriology|January 1, 1995
Characterization of a mutant strain of Saccharomyces cerevisiae with a deletion of the RAD27 gene, a structural homolog of the RAD2 nucleotide excision repair geneM S Reagan, C Pittenger, W Siede, et al.
Journal of Bacteriology|October 1, 1996
The Saccharomyces cerevisiae MEC1 gene, which encodes a homolog of the human ATM gene product, is required for G1 arrest following radiation treatmentW Siede, J B Allen, S J Elledge, et al.
Nucleic Acids Research|May 1, 1996
Cloning and characterization of RAD17, a gene controlling cell cycle responses to DNA damage in Saccharomyces cerevisiaeW Siede, G Nusspaumer, V Portillo, et al.
Pageof 6