Yoshio Nakatani
Yoshio Nakatani
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RINGs hold the key to ubiquitin transfer
R Budhidarmo, Y Nakatani, CL Day
Trends in biochemical sciences 37 (2), 58-65, 2012
Structure of the bacterial type II NADH dehydrogenase: a monotopic membrane protein with an essential role in energy generation
A Heikal, Y Nakatani, E Dunn, MR Weimar, CL Day, EN Baker, JS Lott, ...
Molecular microbiology 91 (5), 950-964, 2014
Molecular mechanism of CCAAT-enhancer binding protein recruitment by the TRIB1 pseudokinase
JM Murphy, Y Nakatani, SA Jamieson, W Dai, IS Lucet, PD Mace
Structure 23 (11), 2111-2121, 2015
Oxidative phosphorylation as a target space for tuberculosis: success, caution, and future directions
GM Cook, K Hards, E Dunn, A Heikal, Y Nakatani, C Greening, DC Crick, ...
Tuberculosis and the Tubercle Bacillus, 295-316, 2017
Regulation of ubiquitin transfer by XIAP, a dimeric RING E3 ligase
Y Nakatani, T Kleffmann, K Linke, SM Condon, MG Hinds, CL Day
Biochemical Journal 450 (3), 629-638, 2013
The mechanism of catalysis by type-II NADH: quinone oxidoreductases
JN Blaza, HR Bridges, D Aragão, EA Dunn, A Heikal, GM Cook, ...
Scientific reports 7 (1), 40165, 2017
Role of Alanine Racemase Mutations in Mycobacterium tuberculosisd-Cycloserine Resistance
Y Nakatani, HK Opel-Reading, M Merker, D Machado, S Andres, ...
Antimicrobial agents and chemotherapy 61 (12), 10.1128/aac. 01575-17, 2017
Structure and activity of exo‐1,3/1,4‐β‐glucanase from marine bacterium Pseudoalteromonas sp. BB1 showing a novel C‐terminal domain
Y Nakatani, SM Cutfield, NP Cowieson, JF Cutfield
The FEBS journal 279 (3), 464-478, 2012
Carbohydrate binding sites in Candida albicans exo‐β‐1,3‐glucanase and the role of the Phe‐Phe ‘clamp’ at the active site entrance
WM Patrick, Y Nakatani, SM Cutfield, ML Sharpe, RJ Ramsay, JF Cutfield
The FEBS journal 277 (21), 4549-4561, 2010
Multiple binding modes of isothiocyanates that inhibit macrophage migration inhibitory factor
ES Spencer, EJ Dale, AÚL Gommans, MT Rutledge, CT Vo, Y Nakatani, ...
European journal of medicinal chemistry 93, 501-510, 2015
Structures of Orf virus chemokine binding protein in complex with host chemokines reveal clues to broad binding specificity
RM Couñago, KM Knapp, Y Nakatani, SB Fleming, M Corbett, LM Wise, ...
Structure 23 (7), 1199-1213, 2015
Structure of the NDH-2–HQNO inhibited complex provides molecular insight into quinone-binding site inhibitors
J Petri, Y Shimaki, W Jiao, HR Bridges, ER Russell, EJ Parker, D Aragão, ...
Biochimica et Biophysica Acta (BBA)-Bioenergetics 1859 (7), 482-490, 2018
Oxidative phosphorylation as a target space for tuberculosis: success, caution, and future directions. Microbiol Spectr 5
GM Cook, K Hards, E Dunn, A Heikal, Y Nakatani, C Greening, DC Crick, ...
TBTB2–0014-2016, 2017
Discovery and Characterization of a Distinctive Exo-1,3/1,4-β-Glucanase from the Marine Bacterium Pseudoalteromonas sp. Strain BB1
Y Nakatani, IL Lamont, JF Cutfield
Applied and Environmental Microbiology 76 (20), 6760-6768, 2010
Exploring the structure of glutamate racemase from Mycobacterium tuberculosis as a template for anti-mycobacterial drug discovery
S Poen, Y Nakatani, HK Opel-Reading, M Lassé, RCJ Dobson, KL Krause
Biochemical Journal 473 (9), 1267-1280, 2016
Multiple bactericidal mechanisms of the zinc ionophore PBT2
N Harbison-Price, SA Ferguson, A Heikal, G Taiaroa, K Hards, Y Nakatani, ...
Msphere 5 (2), 10.1128/msphere. 00157-20, 2020
Unprecedented properties of phenothiazines unraveled by a NDH-2 bioelectrochemical assay platform
Y Nakatani, Y Shimaki, D Dutta, SP Muench, K Ireton, GM Cook, ...
Journal of the American Chemical Society 142 (3), 1311-1320, 2019
Extracellular electron transfer: respiratory or nutrient homeostasis?
LJC Jeuken, K Hards, Y Nakatani
Journal of Bacteriology 202 (7), 10.1128/jb. 00029-20, 2020
Antitubercular polyhalogenated phenothiazines and phenoselenazine with reduced binding to CNS receptors
MG Nizi, J Desantis, Y Nakatani, S Massari, MA Mazzarella, G Shetye, ...
European Journal of Medicinal Chemistry 201, 112420, 2020
Crystal structure of type II NADH:quinone oxidoreductase from Caldalkalibacillus thermarum with an improved resolution of 2.15 Å
Y Nakatani, W Jiao, D Aragao, Y Shimaki, J Petri, EJ Parker, GM Cook
Acta Crystallographica Section F: Structural Biology Communications 73 (10 …, 2017
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