about
Liprin-α controls stress fiber formation by binding to mDia and regulating its membrane localizationStructure and mechanism of the mammalian fructose transporter GLUT5Structure of thiocyanate hydrolase: a new nitrile hydratase family protein with a novel five-coordinate cobalt(III) centerStructure of aspartate racemase complexed with a dual substrate analogue, citric acid, and implications for the reaction mechanismStructure and molecular dynamics simulation of archaeal prefoldin: the molecular mechanism for binding and recognition of nonnative substrate proteinsStructural basis for catalytic activation of thiocyanate hydrolase involving metal-ligated cysteine modificationG-protein-coupled receptor inactivation by an allosteric inverse-agonist antibodyCrystal structure of glycoside hydrolase family 127 β-l-arabinofuranosidase from Bifidobacterium longumCrystal structure of a symmetric football-shaped GroEL:GroES2-ATP14 complex determined at 3.8Å reveals rearrangement between two GroEL ringsStructural basis for the 4'-hydroxylation of diclofenac by a microbial cytochrome P450 monooxygenaseOpen-close structural change upon ligand binding and two magnesium ions required for the catalysis of N-acetylhexosamine 1-kinaseGaining insight into the catalysis by GH20 lacto-N-biosidase using small molecule inhibitors and structural analysisCrystal structure of the anion exchanger domain of human erythrocyte band 3Characterization and crystal structure determination of β-1,2-mannobiose phosphorylase from Listeria innocuaCrystal structure and identification of a key amino acid for glucose tolerance, substrate specificity, and transglycosylation activity of metagenomic β-glucosidase Td2F2Proteoliposome-based selection of a recombinant antibody fragment against the human M2 muscarinic acetylcholine receptorCrystal Structure and Substrate Recognition of Cellobionic Acid Phosphorylase, Which Plays a Key Role in Oxidative Cellulose Degradation by Microbes.The first crystal structure of a family 129 glycoside hydrolase from a probiotic bacterium reveals critical residues and metal cofactors.Biochemical and structural analyses of a bacterial endo-β-1,2-glucanase reveal a new glycoside hydrolase family.Crystal structures of archaeal 2-oxoacid:ferredoxin oxidoreductases from Sulfolobus tokodaiiIsolation and characterization of a thermostable lipase from Bacillus thermoamylovorans NB501.Two arginine residues in the substrate pocket predominantly control the substrate selectivity of thiocyanate hydrolase.Discovery of α-L-arabinopyranosidases from human gut microbiome expands the diversity within glycoside hydrolase family 42.Molecular Insight into Evolution of Symbiosis between Breast-Fed Infants and a Member of the Human Gut Microbiome Bifidobacterium longum.Kinetics and binding sites for interaction of the prefoldin with a group II chaperonin: contiguous non-native substrate and chaperonin binding sites in the archaeal prefoldin.Ligand complex structures of l-amino acid oxidase/monooxygenase from Pseudomonas sp. AIU 813 and its conformational change.Structural and thermodynamic insights into β-1,2-glucooligosaccharide capture by a solute-binding protein in Listeria innocua.Functional expression of thiocyanate hydrolase is promoted by its activator protein, P15K.Identification, functional characterization, and crystal structure determination of bacterial levoglucosan dehydrogenaseCrystal structure of a feruloyl esterase belonging to the tannase family: A disulfide bond near a catalytic triadIdentification and characterization of a novel β-D-galactosidase that releases pyruvylated galactoseStructural features of a bacterial cyclic α-maltosyl-(1→6)-maltose (CMM) hydrolase critical for CMM recognition and hydrolysisAuthor Correction: Identification and characterization of a novel β-D-galactosidase that releases pyruvylated galactoseStructural basis for the specific cleavage of core-fucosylated N-glycans by endo-β-N-acetylglucosaminidase from the fungus Cordyceps militarisUnderstanding the Molecular Mechanism Underlying the High Catalytic Activity of p-Hydroxybenzoate Hydroxylase Mutants for Producing Gallic AcidStructures of the 5-HT2A receptor in complex with the antipsychotics risperidone and zotepineStructural analysis of β-L-arabinobiose-binding protein in the metabolic pathway of hydroxyproline-rich glycoproteins in Bifidobacterium longumStructural basis for broad substrate specificity of UDP-glucose 4-epimerase in the human milk oligosaccharide catabolic pathway of Bifidobacterium longumCrystal structure of β-L-arabinobiosidase belonging to glycoside hydrolase family 121
P50
Q24302574-FF6F6521-AF1C-4C75-9C79-9FBD478D7EF1Q27315967-E8FB4200-70FF-4EE0-9C78-CE242826B896Q27643527-6FA1F9A4-E9C9-4279-A56F-2F753E61623FQ27648031-9282B4D1-D4A2-4274-8ABF-A5E0F6BD9D9DQ27649551-781B2F60-84C8-453A-A088-AF456BC9B4CAQ27657586-CA4FFC4E-118B-41A0-991C-B8219FFCB1F3Q27676934-8BB14746-A834-45BF-B048-028BD795F513Q27689668-7D32A666-1D19-43E9-9333-B2E8065CE125Q27694830-6AAFDB89-187D-4A10-95AE-6119F9A0D2C0Q27695727-4CCEDB1C-BEA1-409E-85D0-7313151DD282Q27697807-7A81D017-495D-4318-AFF0-6CC656DF9793Q27701904-C2DE3112-4F81-40E5-A7E4-9763A69F75B7Q27702576-9370A1C9-7527-401C-9DB3-AF1B702281E6Q27703085-D3963471-A45E-48F6-BA3E-C3D068149D8AQ27704652-C4708309-8E6D-47E1-9B46-5E08258017B9Q35534895-6CB1CA58-BA41-4BF5-B662-580855B28FDCQ35883772-003F0EF4-950B-47D5-ABBD-7C40A18776B7Q38762828-0DC6BD22-AB7B-46A4-931C-3160E4B5AD00Q40304455-3531AD01-D7C0-4AFE-B03C-942976E575FEQ41073745-B077D2F3-0349-48ED-ACE1-B3C5ABBEEFB3Q43029124-335E1FBE-1293-479E-BDEC-15BB35F45441Q46272770-916C1552-58FD-4768-A35B-F0D681C5FA95Q46276845-29443421-3178-40D9-8D0E-E7EBBAB79340Q46387219-B6791582-F287-4A0F-9C26-F0652D3AB878Q47598225-1B098091-011D-42B6-AF94-C988964C46B7Q52365077-BD535FA8-D819-4D51-ABD6-4FBB4B5B3DB7Q54231312-3808BE32-1CE0-455B-964D-13F4D4E4C76EQ54458665-F1C23781-DBB3-426B-8166-E972E8DE9B4BQ57844386-1404B916-B8FF-4EAD-9DB2-2A0B7C4D3AC6Q57898162-2731D20C-2452-4588-BD02-F2E462BD3090Q58020928-78041644-C44C-4F90-B24E-D376A232A3AAQ58020945-1C978851-68AC-4990-99C7-60938CAA7705Q89686563-F9D26A4D-D5DE-4256-ABA1-86A764907102Q90239602-F0510F1F-DAA6-4A67-AD35-63E8E854CE43Q90873865-FEAE9469-FE48-4DE5-B813-9DD84775531BQ91361758-4DA6C3CB-9F47-42B6-8A35-1540156ACF31Q91559816-BD665FC0-23F4-4B69-B8BF-1E392C1C145AQ92322341-7DD67582-8293-4755-9816-FC16B98531D1Q96032430-47664AE8-A68C-47AD-A8CC-CB7872C63707
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Takatoshi Arakawa
@ast
Takatoshi Arakawa
@en
Takatoshi Arakawa
@es
Takatoshi Arakawa
@nl
Takatoshi Arakawa
@sl
type
label
Takatoshi Arakawa
@ast
Takatoshi Arakawa
@en
Takatoshi Arakawa
@es
Takatoshi Arakawa
@nl
Takatoshi Arakawa
@sl
prefLabel
Takatoshi Arakawa
@ast
Takatoshi Arakawa
@en
Takatoshi Arakawa
@es
Takatoshi Arakawa
@nl
Takatoshi Arakawa
@sl
P1053
K-9739-2013
P106
P21
P31
P3829
P496
0000-0001-6496-5440