Prediction of the adaptability of Pseudomonas putida DOT-T1E to a second phase of a solvent for economically sound two-phase biotransformations.
about
Outer membrane protein AlkL boosts biocatalytic oxyfunctionalization of hydrophobic substrates in Escherichia coli.Adaptation of the hydrocarbonoclastic bacterium Alcanivorax borkumensis SK2 to alkanes and toxic organic compounds: a physiological and transcriptomic approachIsolation of butanol- and isobutanol-tolerant bacteria and physiological characterization of their butanol tolerance.Display of a thermostable lipase on the surface of a solvent-resistant bacterium, Pseudomonas putida GM730, and its applications in whole-cell biocatalysis.Isolation and characterization of a thermotolerant ene reductase from Geobacillus sp. 30 and its heterologous expression in Rhodococcus opacus.Overcoming substrate inhibition during biological treatment of monoaromatics: recent advances in bioprocess design.Mechanisms of solvent resistance mediated by interplay of cellular factors in Pseudomonas putida.Strain improvement of industrially important microorganisms based on resistance to toxic metabolites and abiotic stress.Metabolic Fingerprinting of Pseudomonas putida DOT-T1E Strains: Understanding the Influence of Divalent Cations in Adaptation Mechanisms Following Exposure to Toluene.Biotransformation of indole to indigo by the whole cells of phenol hydroxylase engineered strain in biphasic systems.Growth of Pseudomonas taiwanensis VLB120∆C biofilms in the presence of n-butanol.Energetics and surface properties of Pseudomonas putida DOT-T1E in a two-phase fermentation system with 1-decanol as second phase.The glycerophospholipid inventory of Pseudomonas putida is conserved between strains and enables growth condition-related alterations.Metabolic potential of the organic-solvent tolerant Pseudomonas putida DOT-T1E deduced from its annotated genome.Selected Pseudomonas putida strains able to grow in the presence of high butanol concentrations.Biodegradation of 2-ethylhexyl nitrate by Mycobacterium austroafricanum IFP 2173.Enhanced bioproduction of carvone in a two-liquid-phase partitioning bioreactor with a highly hydrophobic biocatalyst.Efficient biotransformations using Escherichia coli with tolC acrAB mutations expressing cytochrome P450 genes.Metabolic response of Pseudomonas putida during redox biocatalysis in the presence of a second octanol phase.Isolation of new toluene-tolerant marine strains of bacteria and characterization of their solvent-tolerance properties.Immediate response mechanisms of Gram-negative solvent-tolerant bacteria to cope with environmental stress: cis-trans isomerization of unsaturated fatty acids and outer membrane vesicle secretion.Making variability less variable: matching expression system and host for oxygenase-based biotransformations.Transcriptional control of the main aromatic hydrocarbon efflux pump in PseudomonasThe ttgGHI solvent efflux pump operon of Pseudomonas putida DOT-T1E is located on a large self-transmissible plasmid
P2860
Q30522559-EB535FC9-E48D-411D-B52B-7D0B050AB63AQ30541054-E6A54E9C-5DFA-4C7D-AD41-B6325ADD87D3Q30555320-BCE1560E-407B-4372-BE85-97759C20D832Q33240174-29FCCD96-93BA-41A2-AE39-A60F4EB3F631Q35187865-B785EDA0-AF4D-4497-B99C-AA00E2EA27D2Q37863060-B02C6E68-3B21-4E20-9A9D-814A8561B52FQ38454138-B0FCD28E-A2A3-45B7-9EDC-E9A968AF1656Q38735996-8473A3C7-E3AE-48B6-9E47-3253DA0E7D68Q39809816-D562A004-97D7-44E5-845F-5F618A9BCDFCQ40085077-FBB52034-A8D8-48E7-9E1B-C0ABF0E4C0EFQ41063413-7D57FCE5-1227-4A88-8D77-066071262C53Q41477104-3D37EB1B-7DDE-476C-9454-F7D97D5F7863Q41862354-958901AC-8352-46B9-A0D7-8FF3D2184E9EQ41934350-48084591-BE27-47D0-B78C-09239398F27DQ43102481-3C19E0AB-95B1-4F05-8983-354A73403B9EQ43247006-4629AC83-2E06-4EA2-A9E0-6B893C8922D6Q44151784-BE129548-ADCC-4BB7-A544-BC2323D6C0E3Q46058083-38524CAC-4F28-4BCF-846E-55BFCFF44D80Q46357643-AB5A3695-06FF-4CEA-AFF5-E0ECD87916F6Q46857686-8B4DB4ED-7E9F-4F37-97CA-71A21F3DDF74Q49950205-DCE2E845-000B-4ECB-B14D-8ADD6A324A7DQ53262090-F18075B0-B39F-4AC0-A910-599D9A915860Q57340317-2A84ACC9-908C-433B-8768-97D13D576D2AQ57340360-D9F4170B-A6FB-4A2B-B3DA-74AAB56DADCF
P2860
Prediction of the adaptability of Pseudomonas putida DOT-T1E to a second phase of a solvent for economically sound two-phase biotransformations.
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
Prediction of the adaptability ...... two-phase biotransformations.
@en
Prediction of the adaptability ...... two-phase biotransformations.
@nl
type
label
Prediction of the adaptability ...... two-phase biotransformations.
@en
Prediction of the adaptability ...... two-phase biotransformations.
@nl
prefLabel
Prediction of the adaptability ...... two-phase biotransformations.
@en
Prediction of the adaptability ...... two-phase biotransformations.
@nl
P2093
P2860
P50
P1476
Prediction of the adaptability ...... d two-phase biotransformations
@en
P2093
Andreas Schmid
Andreas Zehnsdorf
Daniel Meyer
Grit Neumann
Nadja Kabelitz
P2860
P304
P356
10.1128/AEM.71.11.6606-6612.2005
P407
P577
2005-11-01T00:00:00Z