about
Amyloid fibrils from the viewpoint of protein foldingContribution of intra- and intermolecular hydrogen bonds to the conformational stability of human lysozyme(,)Contribution of salt bridges near the surface of a protein to the conformational stabilityRole of surface hydrophobic residues in the conformational stability of human lysozyme at three different positionsContribution of polar groups in the interior of a protein to the conformational stabilityRole of non-glycine residues in left-handed helical conformation for the conformational stability of human lysozymeRole of amino acid residues in left-handed helical conformation for the conformational stability of a proteinConformational contagion in a protein: structural properties of a chameleon sequenceStructural, thermodynamic, and mutational analyses of a psychrotrophic RNase HIRequirement of left-handed glycine residue for high stability of the Tk-subtilisin propeptide as revealed by mutational and crystallographic analysesCrystal structure of Tk-subtilisin folded without propeptide: requirement of propeptide for acceleration of foldingStructure of HIV-1 protease in complex with potent inhibitor KNI-272 determined by high-resolution X-ray and neutron crystallographyIdentification of the interactions critical for propeptide-catalyzed folding of Tk-subtilisinX-ray crystallographic and MD simulation studies on the mechanism of interfacial activation of a family I.3 lipase with two lidsConformational plasticity of RNA for target recognition as revealed by the 2.15 A crystal structure of a human IgG-aptamer complexStabilization by Fusion to the C-terminus of Hyperthermophile Sulfolobus tokodaii RNase HI: A Possibility of Protein Stabilization TagHigh-resolution structure of exo-arabinanase from Penicillium chrysogenumIdentification of the substrate binding site in the N-terminal TBP-like domain of RNase H3Activity, stability, and structure of metagenome-derived LC11-RNase H1, a homolog ofSulfolobus tokodaiiRNase H1Strategy for cold adaptation of the tryptophan synthase α subunit from the psychrophile Shewanella frigidimarina K14-2: crystal structure and physicochemical propertiesMolecular mechanism underlying promiscuous polyamine recognition by spermidine acetyltransferaseContribution of hydrophobic residues to the stability of human lysozyme: calorimetric studies and X-ray structural analysis of the five isoleucine to valine mutantsContribution of the hydrophobic effect to the stability of human lysozyme: calorimetric studies and X-ray structural analyses of the nine valine to alanine mutantsContribution of water molecules in the interior of a protein to the conformational stabilityContribution of hydrogen bonds to the conformational stability of human lysozyme: calorimetry and X-ray analysis of six tyrosine --> phenylalanine mutantsA general rule for the relationship between hydrophobic effect and conformational stability of a protein: stability and structure of a series of hydrophobic mutants of human lysozymeProcessing of membrane protein crystal using ultraviolet laser irradiation.Gene cloning and in vivo characterization of a dibenzothiophene dioxygenase from Xanthobacter polyaromaticivorans.Purification, crystallization and preliminary X-ray diffraction of SecDF, a translocon-associated membrane protein, from Thermus thermophilus.Application of femtosecond laser ablation for detaching grown protein crystals from glass capillary tube.[New progress in crystallization technology of membrane protein and introduction of pharamaceutical innovation value chain].Amyloid beta conformation in aqueous environment.Cloning of the RNase H genes from a metagenomic DNA library: identification of a new type 1 RNase H without a typical active-site motif.Flavobacterium banpakuense sp. nov., isolated from leaf-and-branch compost.Flavobacterium compostarboris sp. nov., isolated from leaf-and-branch compost, and emended descriptions of Flavobacterium hercynium, Flavobacterium resistens and Flavobacterium johnsoniae.Isolation of a novel cutinase homolog with polyethylene terephthalate-degrading activity from leaf-branch compost by using a metagenomic approach.Characteristic features of kynurenine aminotransferase allosterically regulated by (alpha)-ketoglutarate in cooperation with kynurenineCrystal structure of a human kynurenine aminotransferase II homologue from Pyrococcus horikoshii OT3 at 2.20 A resolution.Ca2+-dependent maturation of subtilisin from a hyperthermophilic archaeon, Thermococcus kodakaraensis: the propeptide is a potent inhibitor of the mature domain but is not required for its foldingLaser ablation for protein crystal nucleation and seeding.
P50
Q22252804-23B2DDFC-F766-459C-AA35-320627C186CEQ27619790-79760F29-5D0E-4D97-8FA4-1F98DC2CB094Q27627283-EC4B5F8D-43A3-47A1-9190-4DBE765BFE53Q27628551-0D80954C-8B36-452D-B1E8-FF61741AC131Q27631103-43B0457A-2288-4884-9205-862D77BF899AQ27633257-1981BD0F-6916-43B5-A3CB-CD4F663DBD3EQ27635356-030210C5-6ED4-4562-8BB6-75BCF5CC7EC4Q27644819-94646A4D-E32D-4C69-A955-EBD294645CF6Q27645028-760AD88B-6FD8-49A5-B6DC-E6303E20CB0EQ27648975-6F2BC629-CCC3-475E-96B1-22A17CD6BF00Q27652652-CB5C1345-1249-4A3C-9F85-77AC707D7646Q27654045-ABF20F97-4CAD-4478-A347-6EC26CF70034Q27657479-7212DDAA-3A55-4B31-9A9E-EC69B778127FQ27661244-61C07ABD-0F55-4265-A266-D7719168537FQ27663735-5765B4FD-4D6A-4167-B829-48020D3153F8Q27666813-3339B0CC-9ED8-4F96-AD08-99CE013DD3C0Q27667713-C0E669C7-935A-4CDA-AC61-844F322BC2D8Q27668198-E480C93E-4734-4D87-ADAB-A07FDF45D852Q27677834-279FE622-FE15-4D7C-87D1-DE213B8EA00BQ27687368-ED2EEAA9-6048-411C-A54E-55055F5B6ACBQ27704835-53FAC77E-2C04-45C0-B5EF-F9E7C13A209EQ27729286-FE2DEF36-C053-4AFA-B8A8-B762FA68CFE0Q27734742-31989286-EDBF-40BA-817D-9D203A567A4CQ27748327-736B186A-40D6-4BBC-B5D4-AA62CD23561FQ27759664-7BAE2F8D-7009-486E-B6FB-801DBB00A5B8Q27764865-F9E0C0B9-E71E-4169-9D59-13DDE8A7780FQ30866487-C638B49C-1931-4052-8D75-6BCC7B5ADA2FQ30993085-C17B84C4-EF69-4D2D-9462-44C9C92644C7Q33238385-858A925D-64D4-4D3E-9E75-06FFA17854DBQ33264141-A6B001F5-FFBC-4ACF-A2C9-6C1A87E5B4C8Q33326406-3379B7DF-430D-4EE6-AAF8-CDF7847F2232Q33392235-C9C8261F-CF64-4D1B-9615-AC3A9939A0E0Q33561150-2C15F6DE-19EF-4F26-BC57-DFA6306DE254Q33652351-B9383C26-7D4E-4648-9B57-60C9B51FE79EQ34054986-3E6B399C-2FDE-4DEF-918B-F1E1B39A67C5Q34109669-E5A838AA-E47F-410D-9BE3-B6B5E1A1B6A8Q34336137-B6F668FE-6009-435D-B89E-19E4A5DF00FFQ34447851-038CB193-9DFB-405B-9648-04F15616B5BBQ34720683-0367EEE4-F871-4043-92BD-B48BA48E05E8Q35047085-48F18111-0D3A-467A-AB72-3A759F624692
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Kazufumi Takano
@ast
Kazufumi Takano
@en
Kazufumi Takano
@es
Kazufumi Takano
@nl
Kazufumi Takano
@sl
type
label
Kazufumi Takano
@ast
Kazufumi Takano
@en
Kazufumi Takano
@es
Kazufumi Takano
@nl
Kazufumi Takano
@sl
prefLabel
Kazufumi Takano
@ast
Kazufumi Takano
@en
Kazufumi Takano
@es
Kazufumi Takano
@nl
Kazufumi Takano
@sl
P106
P31
P496
0000-0002-7548-7314