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Biochemistry
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October 19, 2005
Nucleotide binding to the multidrug resistance P-glycoprotein as studied by ESR spectroscopy
Sabine Delannoy, Ina L Urbatsch, Gregory Tombline, et al.
Chembiochem : a European Journal of Chemical Biology
|
March 10, 2011
Design and synthesis of Selenazole-containing peptides for cocrystallization with P-glycoprotein
Houchao Tao, Yue Weng, Rupeng Zhuo, et al.
The Journal of Biological Chemistry
|
March 2, 2011
Specific lipids modulate the transporter associated with antigen processing (TAP)
Christian Schölz, David Parcej, Christer S Ejsing, et al.
Biochimica Et Biophysica Acta. Biomembranes
|
December 4, 2016
Specific stabilization of CFTR by phosphatidylserine
Ellen Hildebrandt, Netaly Khazanov, John C Kappes, et al.
Scientific Reports
|
February 22, 2020
Replacing the eleven native tryptophans by directed evolution produces an active P-glycoprotein with site-specific, non-conservative substitutions
Douglas J Swartz, Anukriti Singh, Narong Sok, et al.
Archives of Biochemistry and Biophysics
|
December 14, 2005
Expression, purification, and characterization of cysteine-free mouse P-glycoprotein
Gregory Tombline, Ina L Urbatsch, Navneet Virk, et al.
Biochemical and Biophysical Research Communications
|
October 30, 2016
Nucleotide dependence of the dimerization of ATP binding cassette nucleotide binding domains
Gregory A Fendley, Ina L Urbatsch, Roger B Sutton, et al.
Trends in Biochemical Sciences
|
October 13, 2009
Understanding polyspecificity of multidrug ABC transporters: closing in on the gaps in ABCB1
Daniel A P Gutmann, Andrew Ward, Ina L Urbatsch, et al.
Bioscience Reports
|
May 15, 2014
Directed evolution of P-glycoprotein cysteines reveals site-specific, non-conservative substitutions that preserve multidrug resistance
Douglas J Swartz, Leo Mok, Sri K Botta, et al.
The Journal of Biological Chemistry
|
August 25, 2004
Properties of P-glycoprotein with mutations in the "catalytic carboxylate" glutamate residues
Gregory Tombline, Lori A Bartholomew, Grace A Tyndall, et al.
Page
of 7
Search research articles
Search
Showing results (31-40 of 61) with videos related to
Sort By:
Page
of 7
Biochemistry
|
October 19, 2005
Nucleotide binding to the multidrug resistance P-glycoprotein as studied by ESR spectroscopy
Sabine Delannoy, Ina L Urbatsch, Gregory Tombline, et al.
Chembiochem : a European Journal of Chemical Biology
|
March 10, 2011
Design and synthesis of Selenazole-containing peptides for cocrystallization with P-glycoprotein
Houchao Tao, Yue Weng, Rupeng Zhuo, et al.
The Journal of Biological Chemistry
|
March 2, 2011
Specific lipids modulate the transporter associated with antigen processing (TAP)
Christian Schölz, David Parcej, Christer S Ejsing, et al.
Biochimica Et Biophysica Acta. Biomembranes
|
December 4, 2016
Specific stabilization of CFTR by phosphatidylserine
Ellen Hildebrandt, Netaly Khazanov, John C Kappes, et al.
Scientific Reports
|
February 22, 2020
Replacing the eleven native tryptophans by directed evolution produces an active P-glycoprotein with site-specific, non-conservative substitutions
Douglas J Swartz, Anukriti Singh, Narong Sok, et al.
Archives of Biochemistry and Biophysics
|
December 14, 2005
Expression, purification, and characterization of cysteine-free mouse P-glycoprotein
Gregory Tombline, Ina L Urbatsch, Navneet Virk, et al.
Biochemical and Biophysical Research Communications
|
October 30, 2016
Nucleotide dependence of the dimerization of ATP binding cassette nucleotide binding domains
Gregory A Fendley, Ina L Urbatsch, Roger B Sutton, et al.
Trends in Biochemical Sciences
|
October 13, 2009
Understanding polyspecificity of multidrug ABC transporters: closing in on the gaps in ABCB1
Daniel A P Gutmann, Andrew Ward, Ina L Urbatsch, et al.
Bioscience Reports
|
May 15, 2014
Directed evolution of P-glycoprotein cysteines reveals site-specific, non-conservative substitutions that preserve multidrug resistance
Douglas J Swartz, Leo Mok, Sri K Botta, et al.
The Journal of Biological Chemistry
|
August 25, 2004
Properties of P-glycoprotein with mutations in the "catalytic carboxylate" glutamate residues
Gregory Tombline, Lori A Bartholomew, Grace A Tyndall, et al.
Page
of 7