Ivan Korendovych
Ivan Korendovych
James R. Schofield Endowed Chair in Biochemistry at Baylor University
Verified email at
Cited by
Cited by
Short peptides self-assemble to produce catalytic amyloids
CM Rufo, YS Moroz, OV Moroz, J Stöhr, TA Smith, X Hu, WF DeGrado, ...
Nature chemistry 6 (4), 303-309, 2014
Catalytic peptide assemblies
O Zozulia, MA Dolan, IV Korendovych
Chemical Society Reviews 47 (10), 3621-3639, 2018
De novo protein design, a retrospective
IV Korendovych, WF DeGrado
Quarterly reviews of biophysics 53, e3, 2020
Design of a switchable eliminase
IV Korendovych, DW Kulp, Y Wu, H Cheng, H Roder, WF DeGrado
Proceedings of the National Academy of Sciences 108 (17), 6823-6827, 2011
De novo design and molecular assembly of a transmembrane diporphyrin-binding protein complex
IV Korendovych, A Senes, YH Kim, JD Lear, HC Fry, MJ Therien, ...
Journal of the American Chemical Society 132 (44), 15516-15518, 2010
Short self‐assembling peptides are able to bind to copper and activate oxygen
OV Makhlynets, PM Gosavi, IV Korendovych
Angewandte Chemie International Edition 55 (31), 9017-9020, 2016
Residue-specific vibrational echoes yield 3D structures of a transmembrane helix dimer
A Remorino, IV Korendovych, Y Wu, WF DeGrado, RM Hochstrasser
Science 332 (6034), 1206-1209, 2011
Catalytic efficiency of designed catalytic proteins
IV Korendovych, WF DeGrado
Current opinion in structural biology 27, 113-121, 2014
Zinc-binding structure of a catalytic amyloid from solid-state NMR
M Lee, T Wang, OV Makhlynets, Y Wu, NF Polizzi, H Wu, PM Gosavi, ...
Proceedings of the National Academy of Sciences 114 (24), 6191-6196, 2017
Isolated Toll-like receptor transmembrane domains are capable of oligomerization
JI Godfroy III, M Roostan, YS Moroz, IV Korendovych, H Yin
PloS one 7 (11), e48875, 2012
Dioxygen activation at non-heme iron: insights from rapid kinetic studies
IV Korendovych, SV Kryatov, EV Rybak-Akimova
Accounts of chemical research 40 (7), 510-521, 2007
Dioxygen Binding to Complexes with FeII2(μ-OH)2 Cores:  Steric Control of Activation Barriers and O2-Adduct Formation
SV Kryatov, S Taktak, IV Korendovych, EV Rybak-Akimova, J Kaizer, ...
Inorganic chemistry 44 (1), 85-99, 2005
Rational and semirational protein design
IV Korendovych
Protein engineering: methods and protocols, 15-23, 2018
Copper-containing catalytic amyloids promote phosphoester hydrolysis and tandem reactions
Z Lengyel, CM Rufo, YS Moroz, OV Makhlynets, IV Korendovych
ACS catalysis 8 (1), 59-62, 2018
New tricks for old proteins: single mutations in a nonenzymatic protein give rise to various enzymatic activities
YS Moroz, TT Dunston, OV Makhlynets, OV Moroz, Y Wu, JH Yoon, ...
Journal of the American Chemical Society 137 (47), 14905-14911, 2015
Anion binding to monotopic and ditopic macrocyclic amides
IV Korendovych, M Cho, PL Butler, RJ Staples, EV Rybak-Akimova
Organic letters 8 (15), 3171-3174, 2006
Computational design of a β-peptide that targets transmembrane helices
SJ Shandler, IV Korendovych, DT Moore, KB Smith-Dupont, CN Streu, ...
Journal of the American Chemical Society 133 (32), 12378-12381, 2011
A redox-mediated Kemp eliminase
A Li, B Wang, A Ilie, KD Dubey, G Bange, IV Korendovych, S Shaik, ...
Nature communications 8 (1), 14876, 2017
Painting proteins blue: β-(1-azulenyl)-l-alanine as a probe for studying protein–protein interactions
YS Moroz, W Binder, P Nygren, GA Caputo, IV Korendovych
Chemical communications 49 (5), 490-492, 2013
Selective incorporation of nitrile-based infrared probes into proteins via cysteine alkylation
H Jo, RM Culik, IV Korendovych, WF DeGrado, F Gai
Biochemistry 49 (49), 10354-10356, 2010
The system can't perform the operation now. Try again later.
Articles 1–20