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L Guarente

Showing results (101-110 of 143) with videos related to

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Molecular and Cellular Biology|March 1, 1995
ADA3, a putative transcriptional adaptor, consists of two separable domains and interacts with ADA2 and GCN5 in a trimeric complexJ Horiuchi, N Silverman, G A Marcus, et al.
Nature Structural Biology|January 14, 1999
Structure of a HAP1-DNA complex reveals dramatically asymmetric DNA binding by a homodimeric proteinD A King, L Zhang, L Guarente, et al.
Nature|July 7, 1988
Function of a yeast TATA element-binding protein in a mammalian transcription systemS Buratowski, S Hahn, P A Sharp, et al.
The EMBO Journal|November 1, 1989
Identification of a yeast protein homologous in function to the mammalian general transcription factor, TFIIAS Hahn, S Buratowski, P A Sharp, et al.
Cell|February 24, 1989
Five intermediate complexes in transcription initiation by RNA polymerase IIS Buratowski, S Hahn, L Guarente, et al.
Cell|January 27, 1989
Functional dissection and sequence of yeast HAP1 activatorK Pfeifer, K S Kim, S Kogan, et al.
The Journal of Biological Chemistry|August 15, 1988
Metabolic changes in Saccharomyces cerevisiae strains lacking citrate synthasesG Kispal, M Rosenkrantz, L Guarente, et al.
Gene|June 9, 1995
The acidic transcriptional activation domains of herpes virus VP16 and yeast HAP4 have different co-factor requirementsL Wang, B Turcotte, L Guarente, et al.
Proceedings of the National Academy of Sciences of the United States of America|April 1, 1993
Antibody-promoted dimerization bypasses the regulation of DNA binding by the heme domain of the yeast transcriptional activator HAP1L Zhang, O Bermingham-McDonogh, B Turcotte, et al.
Molecular and Cellular Biology|June 1, 1996
ADA5/SPT20 links the ADA and SPT genes, which are involved in yeast transcriptionG A Marcus, J Horiuchi, N Silverman, et al.
Pageof 15

Showing results (101-110 of 143) with videos related to

Sort By:
Pageof 15
Molecular and Cellular Biology|March 1, 1995
ADA3, a putative transcriptional adaptor, consists of two separable domains and interacts with ADA2 and GCN5 in a trimeric complexJ Horiuchi, N Silverman, G A Marcus, et al.
Nature Structural Biology|January 14, 1999
Structure of a HAP1-DNA complex reveals dramatically asymmetric DNA binding by a homodimeric proteinD A King, L Zhang, L Guarente, et al.
Nature|July 7, 1988
Function of a yeast TATA element-binding protein in a mammalian transcription systemS Buratowski, S Hahn, P A Sharp, et al.
The EMBO Journal|November 1, 1989
Identification of a yeast protein homologous in function to the mammalian general transcription factor, TFIIAS Hahn, S Buratowski, P A Sharp, et al.
Cell|February 24, 1989
Five intermediate complexes in transcription initiation by RNA polymerase IIS Buratowski, S Hahn, L Guarente, et al.
Cell|January 27, 1989
Functional dissection and sequence of yeast HAP1 activatorK Pfeifer, K S Kim, S Kogan, et al.
The Journal of Biological Chemistry|August 15, 1988
Metabolic changes in Saccharomyces cerevisiae strains lacking citrate synthasesG Kispal, M Rosenkrantz, L Guarente, et al.
Gene|June 9, 1995
The acidic transcriptional activation domains of herpes virus VP16 and yeast HAP4 have different co-factor requirementsL Wang, B Turcotte, L Guarente, et al.
Proceedings of the National Academy of Sciences of the United States of America|April 1, 1993
Antibody-promoted dimerization bypasses the regulation of DNA binding by the heme domain of the yeast transcriptional activator HAP1L Zhang, O Bermingham-McDonogh, B Turcotte, et al.
Molecular and Cellular Biology|June 1, 1996
ADA5/SPT20 links the ADA and SPT genes, which are involved in yeast transcriptionG A Marcus, J Horiuchi, N Silverman, et al.
Pageof 15