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Methods in Molecular Biology (Clifton, N.J.)
|
February 11, 2004
Using chromatin immunoprecipitation to map cotranscriptional mRNA processing in Saccharomyces cerevisiae
Michael-Christopher Keogh, Stephen Buratowski
Molecular and Cellular Biology
|
September 16, 2003
Bur1 kinase is required for efficient transcription elongation by RNA polymerase II
Michael-Christopher Keogh, Vladimir Podolny, Stephen Buratowski
Journal of Biology
|
January 23, 2010
Sometimes one just isn't enough: do vertebrates contain an H2A.Z hyper-variant?
Monika Mehta, Hyun-Soo Kim, Michael-Christopher Keogh
Biochemistry and Cell Biology = Biochimie Et Biologie Cellulaire
|
August 29, 2006
GammaH2AX and its role in DNA double-strand break repair
Jeffrey Fillingham, Michael-Christopher Keogh, Nevan J Krogan
The EMBO Journal
|
January 10, 2009
Ctk1 promotes dissociation of basal transcription factors from elongating RNA polymerase II
Seong Hoon Ahn, Michael-Christopher Keogh, Stephen Buratowski
Molecular and Cellular Biology
|
February 13, 2002
Kin28 is found within TFIIH and a Kin28-Ccl1-Tfb3 trimer complex with differential sensitivities to T-loop phosphorylation
Michael-Christopher Keogh, Eun-Jung Cho, Vladimir Podolny, et al.
The Biochemical Journal
|
February 14, 2024
Beyond the tail: the consequence of context in histone post-translational modification and chromatin research
Ellen N Weinzapfel, Karlie N Fedder-Semmes, Zu-Wen Sun, et al.
Molecular Cell
|
November 29, 2005
gamma-H2AX dephosphorylation by protein phosphatase 2A facilitates DNA double-strand break repair
Dipanjan Chowdhury, Michael-Christopher Keogh, Haruhiko Ishii, et al.
The Journal of Biological Chemistry
|
May 12, 2005
BRCA1/BARD1 ubiquitinate phosphorylated RNA polymerase II
Lea M Starita, Andrew A Horwitz, Michael-Christopher Keogh, et al.
The Journal of Biological Chemistry
|
October 19, 2010
Individual lysine acetylations on the N terminus of Saccharomyces cerevisiae H2A.Z are highly but not differentially regulated
Monika Mehta, Hannes Braberg, Shuyi Wang, et al.
Page
of 7
Search research articles
Search
Showing results (1-10 of 64) with videos related to
Sort By:
Page
of 7
Methods in Molecular Biology (Clifton, N.J.)
|
February 11, 2004
Using chromatin immunoprecipitation to map cotranscriptional mRNA processing in Saccharomyces cerevisiae
Michael-Christopher Keogh, Stephen Buratowski
Molecular and Cellular Biology
|
September 16, 2003
Bur1 kinase is required for efficient transcription elongation by RNA polymerase II
Michael-Christopher Keogh, Vladimir Podolny, Stephen Buratowski
Journal of Biology
|
January 23, 2010
Sometimes one just isn't enough: do vertebrates contain an H2A.Z hyper-variant?
Monika Mehta, Hyun-Soo Kim, Michael-Christopher Keogh
Biochemistry and Cell Biology = Biochimie Et Biologie Cellulaire
|
August 29, 2006
GammaH2AX and its role in DNA double-strand break repair
Jeffrey Fillingham, Michael-Christopher Keogh, Nevan J Krogan
The EMBO Journal
|
January 10, 2009
Ctk1 promotes dissociation of basal transcription factors from elongating RNA polymerase II
Seong Hoon Ahn, Michael-Christopher Keogh, Stephen Buratowski
Molecular and Cellular Biology
|
February 13, 2002
Kin28 is found within TFIIH and a Kin28-Ccl1-Tfb3 trimer complex with differential sensitivities to T-loop phosphorylation
Michael-Christopher Keogh, Eun-Jung Cho, Vladimir Podolny, et al.
The Biochemical Journal
|
February 14, 2024
Beyond the tail: the consequence of context in histone post-translational modification and chromatin research
Ellen N Weinzapfel, Karlie N Fedder-Semmes, Zu-Wen Sun, et al.
Molecular Cell
|
November 29, 2005
gamma-H2AX dephosphorylation by protein phosphatase 2A facilitates DNA double-strand break repair
Dipanjan Chowdhury, Michael-Christopher Keogh, Haruhiko Ishii, et al.
The Journal of Biological Chemistry
|
May 12, 2005
BRCA1/BARD1 ubiquitinate phosphorylated RNA polymerase II
Lea M Starita, Andrew A Horwitz, Michael-Christopher Keogh, et al.
The Journal of Biological Chemistry
|
October 19, 2010
Individual lysine acetylations on the N terminus of Saccharomyces cerevisiae H2A.Z are highly but not differentially regulated
Monika Mehta, Hannes Braberg, Shuyi Wang, et al.
Page
of 7