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Journal of Chemical Theory and Computation
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December 5, 2015
Group Polarizability Model for Molecular Mechanics Energy Functions
Kim Palmo, Samuel Krimm
The Journal of Physical Chemistry. A
|
July 13, 2006
Limitations of the molecular multipole expansion treatment of electrostatic interactions for C-H...O and O-H...O hydrogen bonds and application of a general charge density approach
Weili Qian, Samuel Krimm
Biopolymers
|
May 8, 2020
Hydrogen sulfide concentration in the milieu of the hydrated alanine dipeptide determines its polyproline II-beta propensity: Main chain contribution to the energetic origin of the formation of amyloid
Noemi G Mirkin, Samuel Krimm
Biopolymers
|
July 29, 2010
Conformation dependence of the DαDα stretch mode in peptides: Side-chain influence in dipeptide structures
Noemi G Mirkin, Samuel Krimm
The Journal of Physical Chemistry. B
|
April 5, 2018
Milieu-Initiated Inversion of the Aqueous Polyproline II/β Propensity in the Alanine Tripeptide: Aggregation Origin of the Onset of Amyloid Formation
Noemi G Mirkin, Samuel Krimm
The Journal of Physical Chemistry. B
|
November 4, 2008
Peptide C(alpha)D(alpha) stretch frequencies in a hydrated conformation are perturbed mainly by C(alpha)-D(alpha)...O hydrogen bonding
Noemi G Mirkin, Samuel Krimm
The Journal of Physical Chemistry. A
|
May 29, 2007
Conformation dependence of the CalphaDalpha stretch mode in peptides. 1. Isolated alanine peptide structures
Noemi G Mirkin, Samuel Krimm
Biopolymers
|
July 19, 2012
Water interaction differences determine the relative energetic stability of the polyproline II conformation of the alanine dipeptide in aqueous environments
Noemi G Mirkin, Samuel Krimm
Biopolymers
|
February 3, 2016
Other species in the aqueous environment of a peptide can invert its intrinsic solvated polyproline II/beta propensity: Implications for amyloid formation
Noemi G Mirkin, Samuel Krimm
Biopolymers
|
May 9, 2009
Conformation dependence of the C(alpha)D(alpha) stretch mode in peptides. II. explicitly hydrated alanine peptide structures
Noemi G Mirkin, Samuel Krimm
Page
of 2
Search research articles
Search
Showing results (1-10 of 14) with videos related to
Sort By:
Page
of 2
Journal of Chemical Theory and Computation
|
December 5, 2015
Group Polarizability Model for Molecular Mechanics Energy Functions
Kim Palmo, Samuel Krimm
The Journal of Physical Chemistry. A
|
July 13, 2006
Limitations of the molecular multipole expansion treatment of electrostatic interactions for C-H...O and O-H...O hydrogen bonds and application of a general charge density approach
Weili Qian, Samuel Krimm
Biopolymers
|
May 8, 2020
Hydrogen sulfide concentration in the milieu of the hydrated alanine dipeptide determines its polyproline II-beta propensity: Main chain contribution to the energetic origin of the formation of amyloid
Noemi G Mirkin, Samuel Krimm
Biopolymers
|
July 29, 2010
Conformation dependence of the DαDα stretch mode in peptides: Side-chain influence in dipeptide structures
Noemi G Mirkin, Samuel Krimm
The Journal of Physical Chemistry. B
|
April 5, 2018
Milieu-Initiated Inversion of the Aqueous Polyproline II/β Propensity in the Alanine Tripeptide: Aggregation Origin of the Onset of Amyloid Formation
Noemi G Mirkin, Samuel Krimm
The Journal of Physical Chemistry. B
|
November 4, 2008
Peptide C(alpha)D(alpha) stretch frequencies in a hydrated conformation are perturbed mainly by C(alpha)-D(alpha)...O hydrogen bonding
Noemi G Mirkin, Samuel Krimm
The Journal of Physical Chemistry. A
|
May 29, 2007
Conformation dependence of the CalphaDalpha stretch mode in peptides. 1. Isolated alanine peptide structures
Noemi G Mirkin, Samuel Krimm
Biopolymers
|
July 19, 2012
Water interaction differences determine the relative energetic stability of the polyproline II conformation of the alanine dipeptide in aqueous environments
Noemi G Mirkin, Samuel Krimm
Biopolymers
|
February 3, 2016
Other species in the aqueous environment of a peptide can invert its intrinsic solvated polyproline II/beta propensity: Implications for amyloid formation
Noemi G Mirkin, Samuel Krimm
Biopolymers
|
May 9, 2009
Conformation dependence of the C(alpha)D(alpha) stretch mode in peptides. II. explicitly hydrated alanine peptide structures
Noemi G Mirkin, Samuel Krimm
Page
of 2