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Biochemistry
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December 29, 2011
Thermodynamic dissection of estrogen receptor-promoter interactions reveals that steroid receptors differentially partition their self-association and promoter binding energetics
Amie D Moody, Michael T Miura, Keith D Connaghan, et al.
Biochemistry
|
December 17, 2009
Na(+) and K(+) allosterically regulate cooperative DNA binding by the human progesterone receptor
Keith D Connaghan, Aaron F Heneghan, Michael T Miura, et al.
Journal of Pharmaceutical Sciences
|
May 9, 2017
Some Lessons Learned From a Comparison Between Sedimentation Velocity Analytical Ultracentrifugation and Size Exclusion Chromatography to Characterize and Quantify Protein Aggregates
Aditya V Gandhi, Mark R Pothecary, David L Bain, et al.
Journal of Molecular Biology
|
August 7, 2013
Dissection of androgen receptor-promoter interactions: steroid receptors partition their interaction energetics in parallel with their phylogenetic divergence
Rolando W De Angelis, Qin Yang, Michael T Miura, et al.
Proceedings of the National Academy of Sciences of the United States of America
|
February 6, 2007
Thermodynamic analysis of progesterone receptor-promoter interactions reveals a molecular model for isoform-specific function
Keith D Connaghan-Jones, Aaron F Heneghan, Michael T Miura, et al.
Annual Review of Physiology
|
December 2, 2006
Nuclear receptor structure: implications for function
David L Bain, Aaron F Heneghan, Keith D Connaghan-Jones, et al.
Biochemistry
|
September 12, 2007
Coactivator assembly at the promoter: efficient recruitment of SRC2 is coupled to cooperative DNA binding by the progesterone receptor
Aaron F Heneghan, Keith D Connaghan-Jones, Michael T Miura, et al.
Journal of Molecular Biology
|
March 4, 2008
Thermodynamic dissection of progesterone receptor interactions at the mouse mammary tumor virus promoter: monomer binding and strong cooperativity dominate the assembly reaction
Keith D Connaghan-Jones, Aaron F Heneghan, Michael T Miura, et al.
Biochemistry
|
March 8, 2006
Cooperative DNA binding by the B-isoform of human progesterone receptor: thermodynamic analysis reveals strongly favorable and unfavorable contributions to assembly
Aaron F Heneghan, Keith D Connaghan-Jones, Michael T Miura, et al.
Biochemistry
|
September 28, 2006
Hydrodynamic analysis of the human progesterone receptor A-isoform reveals that self-association occurs in the micromolar range
Keith D Connaghan-Jones, Aaron F Heneghan, Michael T Miura, et al.
Page
of 4
Search research articles
Search
Showing results (11-20 of 35) with videos related to
Sort By:
Page
of 4
Biochemistry
|
December 29, 2011
Thermodynamic dissection of estrogen receptor-promoter interactions reveals that steroid receptors differentially partition their self-association and promoter binding energetics
Amie D Moody, Michael T Miura, Keith D Connaghan, et al.
Biochemistry
|
December 17, 2009
Na(+) and K(+) allosterically regulate cooperative DNA binding by the human progesterone receptor
Keith D Connaghan, Aaron F Heneghan, Michael T Miura, et al.
Journal of Pharmaceutical Sciences
|
May 9, 2017
Some Lessons Learned From a Comparison Between Sedimentation Velocity Analytical Ultracentrifugation and Size Exclusion Chromatography to Characterize and Quantify Protein Aggregates
Aditya V Gandhi, Mark R Pothecary, David L Bain, et al.
Journal of Molecular Biology
|
August 7, 2013
Dissection of androgen receptor-promoter interactions: steroid receptors partition their interaction energetics in parallel with their phylogenetic divergence
Rolando W De Angelis, Qin Yang, Michael T Miura, et al.
Proceedings of the National Academy of Sciences of the United States of America
|
February 6, 2007
Thermodynamic analysis of progesterone receptor-promoter interactions reveals a molecular model for isoform-specific function
Keith D Connaghan-Jones, Aaron F Heneghan, Michael T Miura, et al.
Annual Review of Physiology
|
December 2, 2006
Nuclear receptor structure: implications for function
David L Bain, Aaron F Heneghan, Keith D Connaghan-Jones, et al.
Biochemistry
|
September 12, 2007
Coactivator assembly at the promoter: efficient recruitment of SRC2 is coupled to cooperative DNA binding by the progesterone receptor
Aaron F Heneghan, Keith D Connaghan-Jones, Michael T Miura, et al.
Journal of Molecular Biology
|
March 4, 2008
Thermodynamic dissection of progesterone receptor interactions at the mouse mammary tumor virus promoter: monomer binding and strong cooperativity dominate the assembly reaction
Keith D Connaghan-Jones, Aaron F Heneghan, Michael T Miura, et al.
Biochemistry
|
March 8, 2006
Cooperative DNA binding by the B-isoform of human progesterone receptor: thermodynamic analysis reveals strongly favorable and unfavorable contributions to assembly
Aaron F Heneghan, Keith D Connaghan-Jones, Michael T Miura, et al.
Biochemistry
|
September 28, 2006
Hydrodynamic analysis of the human progesterone receptor A-isoform reveals that self-association occurs in the micromolar range
Keith D Connaghan-Jones, Aaron F Heneghan, Michael T Miura, et al.
Page
of 4