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Gregory D Bowman

Showing results (11-20 of 58) with videos related to

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Molecular and Cellular Biology|December 13, 2021
Reb1, Cbf1, and Pho4 Bias Histone Sliding and Deposition Away from Their Binding SitesSamaneh Ghassabi Kondalaji, Gregory D Bowman
EMBO Reports|October 16, 2013
Nucleosome sliding by Chd1 does not require rigid coupling between DNA-binding and ATPase domainsIlana M Nodelman, Gregory D Bowman
Chemical Reviews|November 27, 2014
Post-translational modifications of histones that influence nucleosome dynamicsGregory D Bowman, Michael G Poirier
Nature Structural & Molecular Biology|June 7, 2017
A glimpse into chromatin remodelingDale B Wigley, Gregory D Bowman
Current Protocols|August 9, 2022
In Vitro Mapping of Nucleosome Positions at Base-Pair Resolution Using Ortho-PhenanthrolineSamaneh Ghassabi Kondalaji, Gregory D Bowman
Nature|June 18, 2004
Structural analysis of a eukaryotic sliding DNA clamp-clamp loader complexGregory D Bowman, Mike O'Donnell, John Kuriyan
Nucleic Acids Research|July 4, 2012
The basic linker of macroH2A stabilizes DNA at the entry/exit site of the nucleosomeSrinivas Chakravarthy, Ashok Patel, Gregory D Bowman
The Journal of Biological Chemistry|October 23, 2019
The Chd1 chromatin remodeler forms long-lived complexes with nucleosomes in the presence of ADP·BeF<sub>3</sub><sup>-</sup> and transition state analogsRen Ren, Samaneh Ghassabi Kondalaji, Gregory D Bowman
Genome Research|March 20, 2016
Sequence-targeted nucleosome sliding in vivo by a hybrid Chd1 chromatin remodelerJeffrey N McKnight, Toshio Tsukiyama, Gregory D Bowman
Nucleic Acids Research|September 22, 2023
Bi-directional nucleosome sliding by the Chd1 chromatin remodeler integrates intrinsic sequence-dependent and ATP-dependent nucleosome positioningSangwoo Park, Giovanni B Brandani, Taekjip Ha, et al.
Pageof 6

Showing results (11-20 of 58) with videos related to

Sort By:
Pageof 6
Molecular and Cellular Biology|December 13, 2021
Reb1, Cbf1, and Pho4 Bias Histone Sliding and Deposition Away from Their Binding SitesSamaneh Ghassabi Kondalaji, Gregory D Bowman
EMBO Reports|October 16, 2013
Nucleosome sliding by Chd1 does not require rigid coupling between DNA-binding and ATPase domainsIlana M Nodelman, Gregory D Bowman
Chemical Reviews|November 27, 2014
Post-translational modifications of histones that influence nucleosome dynamicsGregory D Bowman, Michael G Poirier
Nature Structural & Molecular Biology|June 7, 2017
A glimpse into chromatin remodelingDale B Wigley, Gregory D Bowman
Current Protocols|August 9, 2022
In Vitro Mapping of Nucleosome Positions at Base-Pair Resolution Using Ortho-PhenanthrolineSamaneh Ghassabi Kondalaji, Gregory D Bowman
Nature|June 18, 2004
Structural analysis of a eukaryotic sliding DNA clamp-clamp loader complexGregory D Bowman, Mike O'Donnell, John Kuriyan
Nucleic Acids Research|July 4, 2012
The basic linker of macroH2A stabilizes DNA at the entry/exit site of the nucleosomeSrinivas Chakravarthy, Ashok Patel, Gregory D Bowman
The Journal of Biological Chemistry|October 23, 2019
The Chd1 chromatin remodeler forms long-lived complexes with nucleosomes in the presence of ADP·BeF<sub>3</sub><sup>-</sup> and transition state analogsRen Ren, Samaneh Ghassabi Kondalaji, Gregory D Bowman
Genome Research|March 20, 2016
Sequence-targeted nucleosome sliding in vivo by a hybrid Chd1 chromatin remodelerJeffrey N McKnight, Toshio Tsukiyama, Gregory D Bowman
Nucleic Acids Research|September 22, 2023
Bi-directional nucleosome sliding by the Chd1 chromatin remodeler integrates intrinsic sequence-dependent and ATP-dependent nucleosome positioningSangwoo Park, Giovanni B Brandani, Taekjip Ha, et al.
Pageof 6