Proteins Research
About this Project
Research related to Proteins
Related Publications
A simple method to measure protein side-chain mobility using NMR chemical shifts.
Berjanskii MV; Wishart DS
Binding of epigallocatechin gallate to monomeric, oligomeric and fibril forms of the syrian hamster prion protein
TC Bjorndahl, R Perez-Pineiro, RK Saini, C Ladner, NS Pagadala, ...
Interaction of a diazirine modified curcumin analog with the beta-oligomeric form of the Syrian hamster prion protein
R Perez-Pineiro, TC Bjorndahl, M Berjanskii, C Ladner, NS Pagadala, ...
Resolution-by-proxy: a simple measure for assessing and comparing the overall quality of NMR protein structures
M Berjanskii, J Zhou, Y Liang, G Lin, DS Wishart
Comparative analysis of prion proteins for evolutionarily diverse vertebrate species, polymorphic variants and mutants-Structure and essential dynamics
M Stepanova, B Issack, K Santo, T Fito, M Berjanskii, D Wishart
Use of proteinase K nonspecific digestion for selective and comprehensive identification of interpeptide cross-links: application to prion proteins
EV Petrotchenko, JJ Serpa, DB Hardie, M Berjanskii, BP Suriyamongkol, ...
Exploring the essential collective dynamics of interacting proteins: application to prion protein dimers
BB Issack, M Berjanskii, DS Wishart, M Stepanova
Exploring the Conformational Dynamics of Prion Proteins to Understand the Mechanism of Susceptibility/Resistance to Pathological Conversion
BB Issack, KP Santo, T Fito, M Berjanskii, DS Wishart, M Stepanova
Comparative analysis of essential collective dynamics and NMR-derived flexibility profiles in evolutionarily diverse prion proteins
KP Santo, M Berjanskii, DS Wishart, M Stepanova
The prion protein binds thiamine
R PerezāPineiro, TC Bjorndahl, MV Berjanskii, D Hau, L Li, A Huang, ...
Structural domains and main-chain flexibility in prion proteins.
Blinov N; Berjanskii M; Wishart DS; Stepanova M
PREDITOR: a web server for predicting protein torsion angle restraints
MV Berjanskii, S Neal, DS Wishart
A simple method to predict protein flexibility using secondary chemical shifts.
Berjanskii MV; Wishart DS
TIMP-1 contact sites and perturbations of stromelysin 1 mapped by NMR and a paramagnetic surface probe.
Arumugam S; Hemme CL; Yoshida N; Suzuki K; Nagase H; Berjanskii M; Wu B; Van Doren SR