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J H Bayle

Showing results (1-10 of 5) with videos related to

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Chemistry & Biology|March 7, 1998
Protein acetylation: more than chromatin modification to regulate transcriptionJ H Bayle, G R Crabtree
Proceedings of the National Academy of Sciences of the United States of America|June 6, 1995
The carboxyl-terminal domain of the p53 protein regulates sequence-specific DNA binding through its nonspecific nucleic acid-binding activityJ H Bayle, B Elenbaas, A J Levine
Genes & Development|July 1, 1993
The p53-mdm-2 autoregulatory feedback loopX Wu, J H Bayle, D Olson, et al.
Molecular and Cellular Biology|January 1, 1995
Alternatively spliced forms in the carboxy-terminal domain of the p53 protein regulate its ability to promote annealing of complementary single strands of nucleic acidsL Wu, J H Bayle, B Elenbaas, et al.
Nature Structural Biology|August 31, 2000
Structural basis of dimerization, coactivator recognition and MODY3 mutations in HNF-1alphaR B Rose, J H Bayle, J A Endrizzi, et al.
Pageof 1

Showing results (1-10 of 5) with videos related to

Sort By:
Pageof 1
Chemistry & Biology|March 7, 1998
Protein acetylation: more than chromatin modification to regulate transcriptionJ H Bayle, G R Crabtree
Proceedings of the National Academy of Sciences of the United States of America|June 6, 1995
The carboxyl-terminal domain of the p53 protein regulates sequence-specific DNA binding through its nonspecific nucleic acid-binding activityJ H Bayle, B Elenbaas, A J Levine
Genes & Development|July 1, 1993
The p53-mdm-2 autoregulatory feedback loopX Wu, J H Bayle, D Olson, et al.
Molecular and Cellular Biology|January 1, 1995
Alternatively spliced forms in the carboxy-terminal domain of the p53 protein regulate its ability to promote annealing of complementary single strands of nucleic acidsL Wu, J H Bayle, B Elenbaas, et al.
Nature Structural Biology|August 31, 2000
Structural basis of dimerization, coactivator recognition and MODY3 mutations in HNF-1alphaR B Rose, J H Bayle, J A Endrizzi, et al.
Pageof 1