Laboratory evolution of toluene dioxygenase to accept 4-picoline as a substrate.
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Substrate Binding Mechanism of a Type I Extradiol DioxygenaseChemical and biochemical strategies for the randomization of protein encoding DNA sequences: library construction methods for directed evolution.Directed evolution strategies for enantiocomplementary haloalkane dehalogenases: from chemical waste to enantiopure building blocks.Saturation mutagenesis of toluene ortho-monooxygenase of Burkholderia cepacia G4 for Enhanced 1-naphthol synthesis and chloroform degradationSensitive assay for laboratory evolution of hydroxylases toward aromatic and heterocyclic compounds.Protein engineering of epoxide hydrolase from Agrobacterium radiobacter AD1 for enhanced activity and enantioselective production of (R)-1-phenylethane-1,2-diol.IPRO: an iterative computational protein library redesign and optimization procedureDirected evolution: an approach to engineer enzymes.Protein engineering of toluene monooxygenases for synthesis of chiral sulfoxides.Protein engineering of the archetypal nitroarene dioxygenase of Ralstonia sp. strain U2 for activity on aminonitrotoluenes and dinitrotoluenes through alpha-subunit residues leucine 225, phenylalanine 350, and glycine 407.Protein engineering of the 4-methyl-5-nitrocatechol monooxygenase from Burkholderia sp. strain DNT for enhanced degradation of nitroaromaticsSaturation mutagenesis of Burkholderia cepacia R34 2,4-dinitrotoluene dioxygenase at DntAc valine 350 for synthesizing nitrohydroquinone, methylhydroquinone, and methoxyhydroquinone.Probing the substrate specificity of aminopyrrolnitrin oxygenase (PrnD) by mutational analysis.Altering toluene 4-monooxygenase by active-site engineering for the synthesis of 3-methoxycatechol, methoxyhydroquinone, and methylhydroquinone.Arene cis-dihydrodiol formation: from biology to application.A 2-Hydroxypyridine Catabolism Pathway in Rhodococcus rhodochrous Strain PY11.Probing the molecular determinants of aniline dioxygenase substrate specificity by saturation mutagenesis.Protein engineering of toluene-o-xylene monooxygenase from Pseudomonas stutzeri OX1 for synthesizing 4-methylresorcinol, methylhydroquinone, and pyrogallol.Subtle difference between benzene and toluene dioxygenases of Pseudomonas putida.Active site engineering of the epoxide hydrolase from Agrobacterium radiobacter AD1 to enhance aerobic mineralization of cis-1,2-dichloroethylene in cells expressing an evolved toluene ortho-monooxygenase.Controlling the regiospecific oxidation of aromatics via active site engineering of toluene para-monooxygenase of Ralstonia pickettii PKO1.
P2860
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P2860
Laboratory evolution of toluene dioxygenase to accept 4-picoline as a substrate.
description
2001 nî lūn-bûn
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2001年の論文
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2001年学术文章
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2001年学术文章
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2001年学术文章
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2001年学术文章
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name
Laboratory evolution of toluene dioxygenase to accept 4-picoline as a substrate.
@en
Laboratory evolution of toluene dioxygenase to accept 4-picoline as a substrate.
@nl
type
label
Laboratory evolution of toluene dioxygenase to accept 4-picoline as a substrate.
@en
Laboratory evolution of toluene dioxygenase to accept 4-picoline as a substrate.
@nl
prefLabel
Laboratory evolution of toluene dioxygenase to accept 4-picoline as a substrate.
@en
Laboratory evolution of toluene dioxygenase to accept 4-picoline as a substrate.
@nl
P2093
P2860
P1476
Laboratory evolution of toluene dioxygenase to accept 4-picoline as a substrate.
@en
P2093
P2860
P304
P356
10.1128/AEM.67.9.3882-3887.2001
P407
P577
2001-09-01T00:00:00Z