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Emily G Baker

Showing results (1-10 of 13) with videos related to

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Science (New York, N.Y.)|July 15, 2017
How do miniproteins fold?Derek N Woolfson, Emily G Baker, Gail J Bartlett
Journal of Chemical Theory and Computation|June 10, 2022
Generalized Born Implicit Solvent Models Do Not Reproduce Secondary Structures of <i>De Novo</i> Designed Glu/Lys PeptidesEric J M Lang, Emily G Baker, Derek N Woolfson, et al.
Accounts of Chemical Research|August 24, 2017
Miniprotein Design: Past, Present, and ProspectsEmily G Baker, Gail J Bartlett, Kathryn L Porter Goff, et al.
The Journal of Biological Chemistry|December 30, 2018
Dynamic ion pair behavior stabilizes single α-helices in proteinsMatthew Batchelor, Marcin Wolny, Emily G Baker, et al.
ACS Nano|August 6, 2019
Peptide Assembly Directed and Quantified Using Megadalton DNA NanostructuresJuan Jin, Emily G Baker, Christopher W Wood, et al.
Chemical Science|August 5, 2021
Scalable synthesis and coupling of quaternary α-arylated amino acids: α-aryl substituents are tolerated in α-helical peptidesDaniel J Leonard, Francis Zieleniewski, Isabelle Wellhöfer, et al.
Nature Chemical Biology|August 19, 2015
Corrigendum: Local and macroscopic electrostatic interactions in single α-helicesEmily G Baker, Gail J Bartlett, Matthew P Crump, et al.
Nature Chemical Biology|February 10, 2015
Local and macroscopic electrostatic interactions in single α-helicesEmily G Baker, Gail J Bartlett, Matthew P Crump, et al.
Biochemistry|June 29, 2019
Stabilizing and Understanding a Miniprotein by Rational RedesignKathryn L Porter Goff, Debbie Nicol, Christopher Williams, et al.
Scientific Reports|March 14, 2017
Characterization of long and stable de novo single alpha-helix domains provides novel insight into their stabilityMarcin Wolny, Matthew Batchelor, Gail J Bartlett, et al.
Pageof 2

Showing results (1-10 of 13) with videos related to

Sort By:
Pageof 2
Science (New York, N.Y.)|July 15, 2017
How do miniproteins fold?Derek N Woolfson, Emily G Baker, Gail J Bartlett
Journal of Chemical Theory and Computation|June 10, 2022
Generalized Born Implicit Solvent Models Do Not Reproduce Secondary Structures of <i>De Novo</i> Designed Glu/Lys PeptidesEric J M Lang, Emily G Baker, Derek N Woolfson, et al.
Accounts of Chemical Research|August 24, 2017
Miniprotein Design: Past, Present, and ProspectsEmily G Baker, Gail J Bartlett, Kathryn L Porter Goff, et al.
The Journal of Biological Chemistry|December 30, 2018
Dynamic ion pair behavior stabilizes single α-helices in proteinsMatthew Batchelor, Marcin Wolny, Emily G Baker, et al.
ACS Nano|August 6, 2019
Peptide Assembly Directed and Quantified Using Megadalton DNA NanostructuresJuan Jin, Emily G Baker, Christopher W Wood, et al.
Chemical Science|August 5, 2021
Scalable synthesis and coupling of quaternary α-arylated amino acids: α-aryl substituents are tolerated in α-helical peptidesDaniel J Leonard, Francis Zieleniewski, Isabelle Wellhöfer, et al.
Nature Chemical Biology|August 19, 2015
Corrigendum: Local and macroscopic electrostatic interactions in single α-helicesEmily G Baker, Gail J Bartlett, Matthew P Crump, et al.
Nature Chemical Biology|February 10, 2015
Local and macroscopic electrostatic interactions in single α-helicesEmily G Baker, Gail J Bartlett, Matthew P Crump, et al.
Biochemistry|June 29, 2019
Stabilizing and Understanding a Miniprotein by Rational RedesignKathryn L Porter Goff, Debbie Nicol, Christopher Williams, et al.
Scientific Reports|March 14, 2017
Characterization of long and stable de novo single alpha-helix domains provides novel insight into their stabilityMarcin Wolny, Matthew Batchelor, Gail J Bartlett, et al.
Pageof 2