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Nicholas C Sennett

Showing results (1-10 of 6) with videos related to

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Cell Research|June 11, 2014
Mediator redefines itselfNicholas C Sennett, Dylan J Taatjes
Biochemistry|October 4, 2011
Conformational flexibility in the allosteric regulation of human UDP-α-D-glucose 6-dehydrogenaseNicholas C Sennett, Renuka Kadirvelraj, Zachary A Wood
Biochemistry|October 31, 2012
Cofactor binding triggers a molecular switch to allosterically activate human UDP-α-D-glucose 6-dehydrogenaseNicholas C Sennett, Renuka Kadirvelraj, Zachary A Wood
Biochemistry|May 21, 2011
Role of packing defects in the evolution of allostery and induced fit in human UDP-glucose dehydrogenaseRenuka Kadirvelraj, Nicholas C Sennett, Samuel J Polizzi, et al.
Biochemistry|February 1, 2013
Hysteresis and negative cooperativity in human UDP-glucose dehydrogenaseRenuka Kadirvelraj, Nicholas C Sennett, Gregory S Custer, et al.
Biochemistry|December 6, 2014
Hysteresis in human UDP-glucose dehydrogenase is due to a restrained hexameric structure that favors feedback inhibitionRenuka Kadirvelraj, Gregory S Custer, Nicholas D Keul, et al.
Pageof 1

Showing results (1-10 of 6) with videos related to

Sort By:
Pageof 1
Cell Research|June 11, 2014
Mediator redefines itselfNicholas C Sennett, Dylan J Taatjes
Biochemistry|October 4, 2011
Conformational flexibility in the allosteric regulation of human UDP-α-D-glucose 6-dehydrogenaseNicholas C Sennett, Renuka Kadirvelraj, Zachary A Wood
Biochemistry|October 31, 2012
Cofactor binding triggers a molecular switch to allosterically activate human UDP-α-D-glucose 6-dehydrogenaseNicholas C Sennett, Renuka Kadirvelraj, Zachary A Wood
Biochemistry|May 21, 2011
Role of packing defects in the evolution of allostery and induced fit in human UDP-glucose dehydrogenaseRenuka Kadirvelraj, Nicholas C Sennett, Samuel J Polizzi, et al.
Biochemistry|February 1, 2013
Hysteresis and negative cooperativity in human UDP-glucose dehydrogenaseRenuka Kadirvelraj, Nicholas C Sennett, Gregory S Custer, et al.
Biochemistry|December 6, 2014
Hysteresis in human UDP-glucose dehydrogenase is due to a restrained hexameric structure that favors feedback inhibitionRenuka Kadirvelraj, Gregory S Custer, Nicholas D Keul, et al.
Pageof 1