about
Analytical ultracentrifugation with fluorescence detection system reveals differences in complex formation between recombinant human TNF and different biological TNF antagonists in various environments.Small-molecule inhibition of PTPRZ reduces tumor growth in a rat model of glioblastoma.pH-Dependent Assembly and Segregation of the Coiled-Coil Segments of Yeast Putative Cargo Receptors Emp46p and Emp47p.Disassembly of the self-assembled, double-ring structure of proteasome α7 homo-tetradecamer by α6.New insight into the dynamical system of αB-crystallin oligomers.Mass spectrometric analysis of protein-ligand interactions.Structural characterization of the circadian clock protein complex composed of KaiB and KaiC by inverse contrast-matching small-angle neutron scattering.A Comprehensive Study of Interaction between Peptidoglycan Fragments and Extracelluar Domain of Mycobacterium tuberculosis Ser/Thr Kinase PknB.Application of Site-Specific Spin Labeling for NMR Detecting Inhibitor-Induced Conformational Change of HIV-1 Reverse Transcriptase.Mass Spectrometric Characterization of HIV-1 Reverse Transcriptase Interactions with Non-nucleoside Reverse Transcriptase Inhibitors.The roles of the dimeric and tetrameric structures of the clock protein KaiB in the generation of circadian oscillations in cyanobacteria.Phase-dependent generation and transmission of time information by the KaiABC circadian clock oscillator through SasA-KaiC interaction in cyanobacteria.Native mass spectrometry for understanding dynamic protein complex.RecA requires two molecules of Mg2+ ions for its optimal strand exchange activity in vitro.Circadian oscillations of KaiA-KaiC and KaiB-KaiC complex formations in an in vitro reconstituted KaiABC clock oscillator.Site-directed spin labeling-electron spin resonance mapping of the residues of cyanobacterial clock protein KaiA that are affected by KaiA-KaiC interaction.Dynamic structural states of ClpB involved in its disaggregation function.Expression, Functional Characterization, and Preliminary Crystallization of the Cochaperone Prefoldin from the Thermophilic FungusDirect interaction between KaiA and KaiB revealed by a site-directed spin labeling electron spin resonance analysisTemperature-controlled repeatable scrambling and induced-sorting of building blocks between cubic assembliesSDS-induced oligomerization of Lys49-phospholipase A2 from snake venomMutational and Combinatorial Control of Self-Assembling and Disassembling of Human Proteasome α Subunits.Bifacial Nucleobases for Hexaplex Formation in Aqueous SolutionSupramolecular tholos-like architecture constituted by archaeal proteins without functional annotationCooperative Binding of KaiB to the KaiC Hexamer Ensures Accurate Circadian Clock Oscillation in CyanobacteriaStructural characterization of HypX responsible for CO biosynthesis in the maturation of NiFe-hydrogenaseStructural Dynamics of the PET-Degrading Cutinase-like Enzyme from Saccharomonospora viridis AHK190 in Substrate-Bound States Elucidates the Ca2+-Driven Catalytic CyclePublisher Correction: Dynamic structural states of ClpB involved in its disaggregation functionAllosteric regulation accompanied by oligomeric state changes of Trypanosoma brucei GMP reductase through cystathionine-β-synthase domainIdentification of IgG1 Aggregation Initiation Region by Hydrogen Deuterium Mass SpectrometryATP hydrolysis by KaiC promotes its KaiA binding in the cyanobacterial circadian clock systemA head-to-toe dimerization has physiological relevance for ligand-induced inactivation of protein tyrosine receptor type Z
P50
Q33641909-9BC17A20-5A8A-4A7E-84F0-C60870A9A3D7Q35917698-CB33BA46-C56A-401F-9C38-D0756B097EA9Q36136569-B64CBEED-1161-42EE-8158-F6F0E5C1590EQ36367257-B483A8AA-F242-46AD-A74F-8911D7D4A759Q37067820-3CE35F03-D48D-4892-B62E-D3CBEBF8A558Q37296199-14BE357B-8D3F-4B54-A3F3-90F17BEFE8BBQ37345884-437ADB3C-8045-41A6-8991-49C758691BF4Q38603532-2406262F-047E-4FD2-8233-3C9203B08FF2Q39443607-31C32930-2B42-4DFF-A882-EB7D98FCF504Q39953781-6C0E24D7-EA3A-4C6E-9D34-DC857D17ABCAQ42323668-FEE8E473-8A86-40CA-8337-F1DE85103B64Q43015071-5F6B545D-F30A-4703-A6A0-7A2F00B82FD7Q47613296-FC0EEF69-6B03-4BCB-A54D-F74120786DADQ49488991-33C84838-A8C8-4FEE-8266-A5A387A680E9Q51603777-71207FC1-56B6-4AF7-902B-A2F9FE6974A8Q53068105-24950E3D-57CD-4876-B8E0-EDF71F13647AQ55180166-CD1F27FE-8B28-401E-9E2D-544745CB8D80Q57751833-43262585-0C69-4F3C-A6E2-17AB67FC8043Q63973315-730E3D4C-D163-4D61-A7B4-4A5BF9044578Q64104160-FCCBAE4B-9830-46E4-8A29-6992170196B6Q64263242-956A99BB-4D09-4A31-8D3E-116189EEEC31Q64990528-7123590B-9215-4D46-8B44-0429316CFD2BQ89053472-BF738CEF-96CF-41C7-B338-66A7BE0743DDQ89454827-4E116005-35A9-4BB3-BCCC-BF0D397765E6Q90194120-E1023062-BF5B-4DE7-9172-82FFF8959ECDQ90914147-82BE5483-E87F-4B0A-8C72-DF74CE16537AQ90959681-380614CC-D12D-4B87-A646-225B0104272DQ91841148-C7A9D7E2-D6CA-40F2-B3D5-2E69216F7E0CQ91970688-CF3B570D-4AC5-4F1A-B571-AECC0E4A8382Q92240719-836CEE34-579F-475A-9B63-F69C3D5587A3Q92500720-CC5A8C8D-F850-4766-B6B7-126CB2B27563Q92645950-9C38EE4F-344A-432B-A99A-82FD63109D60
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Kentaro Ishii
@ast
Kentaro Ishii
@en
Kentaro Ishii
@es
Kentaro Ishii
@nl
Kentaro Ishii
@sl
type
label
Kentaro Ishii
@ast
Kentaro Ishii
@en
Kentaro Ishii
@es
Kentaro Ishii
@nl
Kentaro Ishii
@sl
prefLabel
Kentaro Ishii
@ast
Kentaro Ishii
@en
Kentaro Ishii
@es
Kentaro Ishii
@nl
Kentaro Ishii
@sl
P106
P1153
36134574100
P2002
kentaro1121
P21
P31
P496
0000-0003-1722-2673
P569
2000-01-01T00:00:00Z