Two rhizobial strains, Mesorhizobium loti MAFF303099 and Bradyrhizobium japonicum USDA110, encode haloalkane dehalogenases with novel structures and substrate specificities.
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Expansion of access tunnels and active-site cavities influence activity of haloalkane dehalogenases in organic cosolventsDynamics and hydration explain failed functional transformation in dehalogenase designCrystal structure of the novel haloalkane dehalogenase DatA from Agrobacterium tumefaciens C58 reveals a special halide-stabilizing pair and enantioselectivity mechanismStructural and functional analysis of a novel haloalkane dehalogenase with two halide-binding sitesStereoselectivity and conformational stability of haloalkane dehalogenase DbjA from Bradyrhizobium japonicum USDA110: the effect of pH and temperatureBiochemical characterization of a haloalkane dehalogenase DadB from Alcanivorax dieselolei B-5Biochemical characteristics of the novel haloalkane dehalogenase DatA, isolated from the plant pathogen Agrobacterium tumefaciens C58Substrate specificity of haloalkane dehalogenases.Crystallization and preliminary X-ray analysis of the haloalkane dehalogenase DatA from Agrobacterium tumefaciens C58.Rhizobia and their bio-partners as novel drivers for functional remediation in contaminated soils.Discovery of Novel Haloalkane Dehalogenase Inhibitors.Biochemical characterization of a novel haloalkane dehalogenase from a cold-adapted bacterium.Crystallization and preliminary crystallographic analysis of a haloalkane dehalogenase, DbjA, from Bradyrhizobium japonicum USDA110Crystallization and preliminary X-ray analysis of a novel haloalkane dehalogenase DbeA from Bradyrhizobium elkani USDA94.Sequence- and activity-based screening of microbial genomes for novel dehalogenases.Biochemical characterization of haloalkane dehalogenases DrbA and DmbC, Representatives of a Novel Subfamily.Haloalkane dehalogenases: biotechnological applications.Properties and biotechnological applications of natural and engineered haloalkane dehalogenases.Biodegradation of bis(2-chloroethyl) ether by Xanthobacter sp. strain ENV481.Ylehd, an epoxide hydrolase with promiscuous haloalkane dehalogenase activity from tropical marine yeast Yarrowia lipolytica is induced upon xenobiotic stress.Gene Expression Analysis of Zobellia galactanivorans during the Degradation of Algal Polysaccharides Reveals both Substrate-Specific and Shared Transcriptome-Wide Responses.A Haloalkane Dehalogenase from a Marine Microbial Consortium Possessing Exceptionally Broad Substrate Specificity.Different Structural Origins of the Enantioselectivity of Haloalkane Dehalogenases toward Linear β-Haloalkanes: Open-Solvated versus Occluded-Desolvated Active Sites.Ancestral Haloalkane Dehalogenases Show Robustness and Unique Substrate Specificity.Regio- and Enantioselective Sequential Dehalogenation of rac-1,3-Dibromobutane by Haloalkane Dehalogenase LinB.
P2860
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P2860
Two rhizobial strains, Mesorhizobium loti MAFF303099 and Bradyrhizobium japonicum USDA110, encode haloalkane dehalogenases with novel structures and substrate specificities.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Two rhizobial strains, Mesorhi ...... s and substrate specificities.
@en
Two rhizobial strains, Mesorhi ...... s and substrate specificities.
@nl
type
label
Two rhizobial strains, Mesorhi ...... s and substrate specificities.
@en
Two rhizobial strains, Mesorhi ...... s and substrate specificities.
@nl
prefLabel
Two rhizobial strains, Mesorhi ...... s and substrate specificities.
@en
Two rhizobial strains, Mesorhi ...... s and substrate specificities.
@nl
P2093
P2860
P1476
Two rhizobial strains, Mesorhi ...... s and substrate specificities.
@en
P2093
Kiwamu Minamisawa
Marta Monincová
Masataka Tsuda
Radka Chaloupková
Yoshiyuki Ohtsubo
Yuji Nagata
Yukari Sato
Zbynek Prokop
P2860
P304
P356
10.1128/AEM.71.8.4372-4379.2005
P407
P577
2005-08-01T00:00:00Z