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E C Friedberg

Showing results (71-80 of 214) with videos related to

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Biochemistry|May 11, 1982
An enzyme activity from Escherichia coli that attacks single-stranded deoxyribopolymers and single-stranded deoxyribonucleic acid containing apyrimidinic sitesT Bonura, R Schultz, E C Friedberg
Journal of Bacteriology|November 1, 1987
Mutational inactivation of the Saccharomyces cerevisiae RAD4 gene in Escherichia coliR Fleer, W Siede, E C Friedberg
The Journal of Biological Chemistry|January 5, 1992
The DNA helicase and adenosine triphosphatase activities of yeast Rad3 protein are inhibited by DNA damage. A potential mechanism for damage-specific recognitionH Naegeli, L Bardwell, E C Friedberg
Mutation Research|September 2, 1996
A yeast whole cell extract supports nucleotide excision repair and RNA polymerase II transcription in vitroZ Wang, X Wu, E C Friedberg
The Journal of Biological Chemistry|September 20, 1997
Molecular mechanism of base excision repair of uracil-containing DNA in yeast cell-free extractsZ Wang, X Wu, E C Friedberg
The Journal of Biological Chemistry|December 5, 1989
Purification and characterization of Rad3 ATPase/DNA helicase from Saccharomyces cerevisiaeI Harosh, L Naumovski, E C Friedberg
Proceedings of the National Academy of Sciences of the United States of America|June 1, 1993
Nucleotide-excision repair of DNA in cell-free extracts of the yeast Saccharomyces cerevisiaeZ Wang, X Wu, E C Friedberg
Biochemistry|April 14, 1992
Excision repair of DNA in nuclear extracts from the yeast Saccharomyces cerevisiaeZ Wang, X Wu, E C Friedberg
Journal of Virology|August 1, 1976
Enzymatic degradation of uracil-containing DNA. II. Evidence for N-glycosidase and nuclease activities in unfractionated extracts of Bacillus subtilisJ Duncan, L Hamilton, E C Friedberg
The Journal of Biological Chemistry|May 15, 1993
The DNA helicase activities of Rad3 protein of Saccharomyces cerevisiae and helicase II of Escherichia coli are differentially inhibited by covalent and noncovalent DNA modificationsH Naegeli, P Modrich, E C Friedberg
Pageof 22

Showing results (71-80 of 214) with videos related to

Sort By:
Pageof 22
Biochemistry|May 11, 1982
An enzyme activity from Escherichia coli that attacks single-stranded deoxyribopolymers and single-stranded deoxyribonucleic acid containing apyrimidinic sitesT Bonura, R Schultz, E C Friedberg
Journal of Bacteriology|November 1, 1987
Mutational inactivation of the Saccharomyces cerevisiae RAD4 gene in Escherichia coliR Fleer, W Siede, E C Friedberg
The Journal of Biological Chemistry|January 5, 1992
The DNA helicase and adenosine triphosphatase activities of yeast Rad3 protein are inhibited by DNA damage. A potential mechanism for damage-specific recognitionH Naegeli, L Bardwell, E C Friedberg
Mutation Research|September 2, 1996
A yeast whole cell extract supports nucleotide excision repair and RNA polymerase II transcription in vitroZ Wang, X Wu, E C Friedberg
The Journal of Biological Chemistry|September 20, 1997
Molecular mechanism of base excision repair of uracil-containing DNA in yeast cell-free extractsZ Wang, X Wu, E C Friedberg
The Journal of Biological Chemistry|December 5, 1989
Purification and characterization of Rad3 ATPase/DNA helicase from Saccharomyces cerevisiaeI Harosh, L Naumovski, E C Friedberg
Proceedings of the National Academy of Sciences of the United States of America|June 1, 1993
Nucleotide-excision repair of DNA in cell-free extracts of the yeast Saccharomyces cerevisiaeZ Wang, X Wu, E C Friedberg
Biochemistry|April 14, 1992
Excision repair of DNA in nuclear extracts from the yeast Saccharomyces cerevisiaeZ Wang, X Wu, E C Friedberg
Journal of Virology|August 1, 1976
Enzymatic degradation of uracil-containing DNA. II. Evidence for N-glycosidase and nuclease activities in unfractionated extracts of Bacillus subtilisJ Duncan, L Hamilton, E C Friedberg
The Journal of Biological Chemistry|May 15, 1993
The DNA helicase activities of Rad3 protein of Saccharomyces cerevisiae and helicase II of Escherichia coli are differentially inhibited by covalent and noncovalent DNA modificationsH Naegeli, P Modrich, E C Friedberg
Pageof 22