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The effect of histidine residue modification on tyrosinase activity and conformation: inhibition kinetics and computational prediction

Cited 32 time in scopus
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dc.contributor.authorL Gou-
dc.contributor.authorZ R Lu-
dc.contributor.authorDaeui Park-
dc.contributor.authorSang Ho Oh-
dc.contributor.authorL Shi-
dc.contributor.authorSeongjin Park-
dc.contributor.authorJong Hwa Park-
dc.contributor.authorY D Park-
dc.contributor.authorZ L Ren-
dc.contributor.authorF Zou-
dc.date.accessioned2017-04-19T09:12:43Z-
dc.date.available2017-04-19T09:12:43Z-
dc.date.issued2008-
dc.identifier.issn0739-1102-
dc.identifier.uri10.1080/07391102.2008.10507254ko
dc.identifier.urihttps://oak.kribb.re.kr/handle/201005/8773-
dc.description.abstractWe found that the histidine chemical modification of tyrosinase conspicuously inactivated enzyme activity. The substrate reactions with diethylpyridinecarbamate showed slow-binding inhibition kinetics (KI = 0.24 ± 0.03 mM). Bromoacetate, as another histidine modifier, was also applied in order to study inhibition kinetics. The bromoacetate directly induced the exposures of hydrophobic surfaces following by complete inactivation via ligand binding. For further insights, we predicted the 3D structure of tyrosinase and simulated the docking between tyrosinase and diethylpyridinecarbamate. The docking simulation was shown to the significant binding energy scores (-3.77 kcal/mol by AutoDock4 and -25.26 kcal/mol by Dock6). The computational prediction was informative to elucidate the role of free histidine residues at the active site, which are related to substrate accessibility during tyrosinase catalysis.-
dc.publisherT&F (Taylor & Francis)-
dc.titleThe effect of histidine residue modification on tyrosinase activity and conformation: inhibition kinetics and computational prediction-
dc.title.alternativeThe effect of histidine residue modification on tyrosinase activity and conformation: inhibition kinetics and computational prediction-
dc.typeArticle-
dc.citation.titleJournal of Biomolecular Structure & Dynamics-
dc.citation.number3-
dc.citation.endPage401-
dc.citation.startPage395-
dc.citation.volume26-
dc.contributor.affiliatedAuthorDaeui Park-
dc.contributor.affiliatedAuthorSang Ho Oh-
dc.contributor.affiliatedAuthorSeongjin Park-
dc.contributor.affiliatedAuthorJong Hwa Park-
dc.contributor.alternativeNameGou-
dc.contributor.alternativeNameLu-
dc.contributor.alternativeName박대의-
dc.contributor.alternativeName오상호-
dc.contributor.alternativeNameShi-
dc.contributor.alternativeName박성진-
dc.contributor.alternativeName박종화-
dc.contributor.alternativeName박용두-
dc.contributor.alternativeNameRen-
dc.contributor.alternativeNameZou-
dc.identifier.bibliographicCitationJournal of Biomolecular Structure & Dynamics, vol. 26, no. 3, pp. 395-401-
dc.identifier.doi10.1080/07391102.2008.10507254-
dc.subject.keyworddocking simulation-
dc.subject.keywordhistidine modification-
dc.subject.keywordinhibition kinetics-
dc.subject.keywordstructure prediction-
dc.subject.keywordtyrosinase-
dc.subject.localDocking simulation-
dc.subject.localDocking simulations-
dc.subject.localdocking simulation-
dc.subject.localhistidine modification-
dc.subject.localInhibition kinetics-
dc.subject.localinhibition kinetics-
dc.subject.localstructure prediction-
dc.subject.localStructure prediction-
dc.subject.localtyrosinase-
dc.subject.localTyrosinase-
dc.description.journalClassY-
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