New opportunities for biocatalysis: driving the synthesis of chiral chemicals.
about
Microbial enzymes: tools for biotechnological processesFungal His-tagged nitrilase from Gibberella intermedia: gene cloning, heterologous expression and biochemical propertiesWhole-cell biotransformation systems for reduction of prochiral carbonyl compounds to chiral alcohol in Escherichia coliReengineered carbonyl reductase for reducing methyl-substituted cyclohexanones.A high-throughput adrenaline test for the exploration of the catalytic potential of halohydrin dehalogenases in epoxide ring-opening reactions.Computational enzyme design.Nature's chemical signatures in human olfaction: a foodborne perspective for future biotechnology.Biocatalysts: application and engineering for industrial purposes.Biocatalysis and Biomass Conversion in Alternative Reaction Media.Easy preparation of enantiomerically enriched heteroaromatic alcohols through lipase-catalyzed acylation with succinic anhydride under unconventional activation.Green route to synthesis of valuable chemical 6-hydroxynicotine from nicotine in tobacco wastes using genetically engineered Agrobacterium tumefaciens S33.Biotransformation of β-hydroxypyruvate and glycolaldehyde to l-erythrulose by Pichia pastoris strain GS115 overexpressing native transketolase.Efficient production of (R)-o-chloromandelic acid by deracemization of o-chloromandelonitrile with a new nitrilase mined from Labrenzia aggregata.Covalent immobilization of Agrobacterium radiobacter epoxide hydrolase on ethylenediamine functionalised epoxy supports for biocatalytical synthesis of (R)-epichlorohydrin.Chemical modification with functionalized ionic liquids: a novel method to improve the enzymatic properties of Candida rugosa lipase.Amination of enzymes to improve biocatalyst performance: coupling genetic modification and physicochemical tools
P2860
Q26827731-44C46E3C-8CC1-4923-8A6D-4F32CBA21FD5Q28485442-77153B49-80B8-4A6D-9A22-8AB594D2DB12Q34397086-6D746199-CFF6-436C-8681-221040A61827Q34565033-F22584E4-14EF-4E55-B103-2A2242ADDD46Q35220501-13078094-E74F-4DEE-A43C-59349AE654DFQ38092809-C6949298-624B-4F19-85CB-1C5A89B5FC01Q38221105-12F96619-BC76-4E55-8A93-80F8F6FCD6EFQ38265408-8AEF6E2B-401F-4608-9299-3327E6ECF0C4Q38887808-689D7285-4798-49EF-AE3A-FA2498BAC1A0Q46440423-C3B083BD-5F76-4459-B647-A1F1D67BD113Q47093687-165C2FE1-F99F-4103-8D9C-A2F777D45255Q47230123-E7E43A4E-FE4E-4291-B9E3-1104316A5561Q47975353-6F798FE4-02AD-4FD7-8CC7-BBD724378838Q50788775-189CA8BF-3FCE-4180-8F1C-ADA60649A5E2Q53627710-5212EA3F-DB5B-4579-9C00-DD53AA74B5FEQ58881989-F498E633-2BAE-43F4-9981-7B41AA34B112
P2860
New opportunities for biocatalysis: driving the synthesis of chiral chemicals.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 23 July 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
New opportunities for biocatalysis: driving the synthesis of chiral chemicals.
@en
New opportunities for biocatalysis: driving the synthesis of chiral chemicals.
@nl
type
label
New opportunities for biocatalysis: driving the synthesis of chiral chemicals.
@en
New opportunities for biocatalysis: driving the synthesis of chiral chemicals.
@nl
prefLabel
New opportunities for biocatalysis: driving the synthesis of chiral chemicals.
@en
New opportunities for biocatalysis: driving the synthesis of chiral chemicals.
@nl
P1476
New opportunities for biocatalysis: driving the synthesis of chiral chemicals.
@en
P2093
Gao-Wei Zheng
Jian-He Xu
P304
P356
10.1016/J.COPBIO.2011.07.002
P577
2011-07-23T00:00:00Z