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F R Bryant

Showing results (1-10 of 32) with videos related to

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The Journal of Biological Chemistry|June 25, 1988
Construction of a recombinase-deficient mutant recA protein that retains single-stranded DNA-dependent ATPase activityF R Bryant
The Journal of Biological Chemistry|August 2, 1996
Reengineering the nucleotide cofactor specificity of the RecA protein by mutation of aspartic acid 100E Stole, F R Bryant
The Journal of Biological Chemistry|March 18, 1994
Introduction of a tryptophan reporter group into loop 1 of the recA protein. Examination of the conformational states of the recA-ssDNA complex by fluorescence spectroscopyE Stole, F R Bryant
The Journal of Biological Chemistry|September 3, 1999
Differential rates of NTP hydrolysis by the mutant [S69G]RecA protein. Evidence for a coupling of NTP turnover to DNA strand exchangeS Nayak, F R Bryant
The Journal of Biological Chemistry|September 1, 1995
Spectroscopic demonstration of a linkage between the kinetics of NTP hydrolysis and the conformational state of the recA-single-stranded DNA complexE Stole, F R Bryant
Biochemistry|March 25, 1997
The rate-determining step on the recA protein-catalyzed ssDNA-dependent ATP hydrolysis reaction pathwayE Stole, F R Bryant
Biochemistry|June 9, 1992
Effect of nucleotide cofactor structure on recA protein-promoted DNA pairing. 1. Three-strand exchange reactionK L Menge, F R Bryant
Biochemistry|June 9, 1992
Effect of nucleotide cofactor structure on recA protein-promoted DNA pairing. 2. DNA renaturation reactionK L Menge, F R Bryant
The Journal of Biological Chemistry|October 5, 1986
ATP-independent renaturation of complementary DNA strands by the mutant recA1 protein from Escherichia coliF R Bryant, I R Lehman
Proceedings of the National Academy of Sciences of the United States of America|January 1, 1985
On the mechanism of renaturation of complementary DNA strands by the recA protein of Escherichia coliF R Bryant, I R Lehman
Pageof 4

Showing results (1-10 of 32) with videos related to

Sort By:
Pageof 4
The Journal of Biological Chemistry|June 25, 1988
Construction of a recombinase-deficient mutant recA protein that retains single-stranded DNA-dependent ATPase activityF R Bryant
The Journal of Biological Chemistry|August 2, 1996
Reengineering the nucleotide cofactor specificity of the RecA protein by mutation of aspartic acid 100E Stole, F R Bryant
The Journal of Biological Chemistry|March 18, 1994
Introduction of a tryptophan reporter group into loop 1 of the recA protein. Examination of the conformational states of the recA-ssDNA complex by fluorescence spectroscopyE Stole, F R Bryant
The Journal of Biological Chemistry|September 3, 1999
Differential rates of NTP hydrolysis by the mutant [S69G]RecA protein. Evidence for a coupling of NTP turnover to DNA strand exchangeS Nayak, F R Bryant
The Journal of Biological Chemistry|September 1, 1995
Spectroscopic demonstration of a linkage between the kinetics of NTP hydrolysis and the conformational state of the recA-single-stranded DNA complexE Stole, F R Bryant
Biochemistry|March 25, 1997
The rate-determining step on the recA protein-catalyzed ssDNA-dependent ATP hydrolysis reaction pathwayE Stole, F R Bryant
Biochemistry|June 9, 1992
Effect of nucleotide cofactor structure on recA protein-promoted DNA pairing. 1. Three-strand exchange reactionK L Menge, F R Bryant
Biochemistry|June 9, 1992
Effect of nucleotide cofactor structure on recA protein-promoted DNA pairing. 2. DNA renaturation reactionK L Menge, F R Bryant
The Journal of Biological Chemistry|October 5, 1986
ATP-independent renaturation of complementary DNA strands by the mutant recA1 protein from Escherichia coliF R Bryant, I R Lehman
Proceedings of the National Academy of Sciences of the United States of America|January 1, 1985
On the mechanism of renaturation of complementary DNA strands by the recA protein of Escherichia coliF R Bryant, I R Lehman
Pageof 4