Protein Spring Helps Our Brain Recognize Sound - Technology Networks
Protein Spring Helps Our Brain Recognize Sound - Technology Networks
Protein Spring Helps Our Brain Recognize Sound Technology NetworksTechnology Networks is an internationally recognised publisher that provides access to the latest scientific news, products, research, videos and posters.
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04-14-2019 10:41 AM
Structure determination in "shiftless" solid state NMR of oriented protein samples.
Structure determination in "shiftless" solid state NMR of oriented protein samples.
Structure determination in "shiftless" solid state NMR of oriented protein samples.
J Magn Reson. 2011 Jul 6;
Authors: Yin Y, Nevzorov AA
An efficient formalism for calculating protein structures from oriented-sample NMR data in the torsion-angle space is presented. Angular anisotropies of the NMR observables are treated by utilizing an irreducible spherical basis of rotations. An intermediate rotational transformation is introduced that greatly speeds up...
[NMR paper] Reconstructing NMR spectra of "invisible" excited protein states using HSQC and HMQC
Reconstructing NMR spectra of "invisible" excited protein states using HSQC and HMQC experiments.
Related Articles Reconstructing NMR spectra of "invisible" excited protein states using HSQC and HMQC experiments.
J Am Chem Soc. 2002 Oct 16;124(41):12352-60
Authors: Skrynnikov NR, Dahlquist FW, Kay LE
Carr-Purcell-Meiboom-Gill (CPMG) relaxation measurements employing trains of 180 degrees pulses with variable pulse spacing provide valuable information about systems undergoing millisecond-time-scale chemical exchange. Fits of the CPMG relaxation...
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11-24-2010 08:58 PM
Postdoctoral Position "Solution Dynamics of Protein Kinases" in New York
Postdoctoral Position "Solution Dynamics of Protein Kinases" in New York
A postdoctoral position to study the solution dynamics and structure
of protein kinases is available on a NIH funded project (REF#:
HS-R-6453-10-08-S). Our group is interested in how static and dynamic
changes of protein structure affect the activity of protein kinases.
We combine X-ray crystallography, NMR and ligand binding kinetics with
collaborative molecular dynamic studies (See e.g. ref 1 and 2). Our
research group is located at Stony Brook University in a highly
interactive environment with the New York...
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08-21-2010 05:17 AM
Postdoctoral Position "Solution Dynamics of Protein Kinases" in New York
Postdoctoral Position "Solution Dynamics of Protein Kinases" in New York
A postdoctoral position to study the solution dynamics and structure
of protein kinases is available on a NIH funded project (REF#:
HS-R-6453-10-08-S). Our group is interested in how static and dynamic
changes of protein structure affect the activity of protein kinases.
We combine X-ray crystallography, NMR and ligand binding kinetics with
collaborative molecular dynamic studies (See e.g. ref 1 and 2). Our
research group is located at Stony Brook University in a highly
interactive environment with the New York...
"Ghost" Protein Discovery Reveals Mechanism of Fatal Prion Brain Diseases - Technology Networks
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