Bifunctional xylanases and their potential use in biotechnology.
about
Crystal structure of albaflavenone monooxygenase containing a moonlighting terpene synthase active siteBiochemical and kinetic characterization of the multifunctional β-glucosidase/β-xylosidase/α-arabinosidase, Bgxa1.Structural analysis of a glycoside hydrolase family 11 xylanase from Neocallimastix patriciarum: insights into the molecular basis of a thermophilic enzyme.Improving the thermostability of a fungal GH11 xylanase via site-directed mutagenesis guided by sequence and structural analysis.Characterization of a bifunctional xylanase/endoglucanase from yak rumen microorganisms.Paenibacillus sp. strain E18 bifunctional xylanase-glucanase with a single catalytic domain.Characterisation of two bifunctional cellulase-xylanase enzymes isolated from a bovine rumen metagenome library.Whole-genome sequence of the xylanase-producing Mesoflavibacter zeaxanthinifaciens strain S86.A simple and convenient sticky/blunt-end ligation method for fusion gene construction.Fast and reliable production, purification and characterization of heat-stable, bifunctional enzyme chimerasIsolation and characterization of a non-specific endoglucanase from a metagenomic library of goat rumen.Paradigmatic status of an endo- and exoglucanase and its effect on crystalline cellulose degradationBiotransformation and bioconversion of phenolic compounds obtainment: an overview.Production and characteristics of the recombinant extracellular bifunctional endoglucanase of the polyextremophilic bacterium Bacillus halodurans and its applicability in saccharifying agro-residues.Bringing functions together with fusion enzymes--from nature's inventions to biotechnological applications.Co-expression of Endoxylanase and Endoglucanase in Scheffersomyces stipitis and Its Application in Ethanol Production.A novel bifunctional acetyl xylan esterase/arabinofuranosidase from Penicillium chrysogenum P33 enhances enzymatic hydrolysis of lignocellulose.The GH51 α-l-arabinofuranosidase from Paenibacillus sp. THS1 is multifunctional, hydrolyzing main-chain and side-chain glycosidic bonds in heteroxylans.The wood rot ascomycete Xylaria polymorpha produces a novel GH78 glycoside hydrolase that exhibits α-L-rhamnosidase and feruloyl esterase activities and releases hydroxycinnamic acids from lignocellulosesCloning and sequence analysis of a novel xylanase gene, Auxyn10A, from Aspergillus usamii.Cloning, expression and characterization of glycoside hydrolase family 11 endoxylanase from Bacillus pumilus ARA.Hydrolysis of wheat arabinoxylan by two acetyl xylan esterases from Chaetomium thermophilum.Fusion of the OsmC domain from esterase EstO confers thermolability to the cold-active xylanase Xyn8 from Pseudoalteromonas arctica.Glycoside hydrolase inventory drives plant polysaccharide deconstruction by the extremely thermophilic bacterium Caldicellulosiruptor saccharolyticus.A novel bifunctional pectinase from Penicillium oxalicum SX6 with separate pectin methylesterase and polygalacturonase catalytic domains.A novel cold-active xylanase from the cellulolytic myxobacterium Sorangium cellulosum So9733-1: gene cloning, expression, and enzymatic characterization.Dynamic changes in xylanases and β-1,4-endoglucanases secreted by Aspergillus niger An-76 in response to hydrolysates of lignocellulose polysaccharide.Microbial lipolytic fusion enzymes: current state and future perspectives.Beta-xylosidase activity of a GH3 glucosidase/xylosidase from yak rumen metagenome promotes the enzymatic degradation of hemicellulosic xylans.A review on chimeric xylanases: methods and conditions.Display of fungi xylanase on Escherichia coli cell surface and use of the enzyme in xylan biodegradation.Generating bifunctional fusion enzymes composed of heat-active endoglucanase (Cel5A) and endoxylanase (XylT).
P2860
Q24657001-2CAB7003-7200-441F-B9F4-111277E37B32Q31135412-03659411-8A7A-4785-8586-3A71F1984956Q33676185-AD4A5E15-3207-4077-B6D7-E1AA4C5C625CQ33722010-DCC649E2-BB50-4B6C-A722-FA265DE976B9Q33859571-ACBBF70C-1424-4381-B48F-BF69924B0508Q33876798-204A285C-0972-4E7D-A87C-C0999820B4F7Q34453655-821A6CF5-505C-4A0C-B870-A0902601C00AQ35274121-A76A5B9F-CBEC-4830-AE0C-471217DAC5CBQ35589494-BAFA472E-E533-4EAF-9DEA-8F14EADEF01EQ35697458-6528867A-9500-4310-80E3-A0FCC013640BQ35880242-CD2C6A11-B856-4488-A268-2487A7C2F10BQ36412538-5FF246D1-BE57-44F1-B68A-C36B069DE563Q38121615-F6434E42-D41E-442E-80F7-E362CCA6A66AQ38289544-BDACC844-65A0-4601-946B-EF08DCA09D79Q38298550-81FC3607-90E5-47CD-ACFD-A6C71CD80DACQ40531403-C6D0C8C3-1E58-4CA0-974F-C55309DBE06BQ41676360-D8C4535E-2C74-44B2-9904-4E0674369AEBQ41906841-3BB3C758-47D9-43D2-9F92-911B18E20DA3Q42270802-10BCC836-25B5-41ED-B9B9-9E648920F5A9Q42686333-1FD3231F-BC72-4A85-86B6-D76EA8445D50Q42692918-1E6F53D6-E0D1-4953-AA22-DB2FA30795EFQ43023174-54591F3B-D08F-4CC2-93DB-28388AE696DCQ43030493-C26242CE-B748-4C2A-9AC3-0C2DBB0E6B61Q43030522-F04E678B-8C99-4EBC-8304-593A691058A0Q43655253-C011CC15-9DFF-4C3E-9EE4-FC474AE854FBQ44278730-8BDB00E1-9A34-48D3-B21D-0C0D0F22B1D9Q46188014-BE1B138B-007A-4225-A13D-A583F9E616E6Q47357504-DEAC697A-1E0B-491C-A91E-DD3E9574395EQ48054572-4A4D7DEB-EAF7-46CA-BF8E-59159D035827Q53841681-6CF92098-1814-4673-8F91-2DFF3EEE8CADQ54273494-50FA2952-C5F3-48E7-BD7E-FAE836876F74Q54281805-B73AB8C0-F69E-4283-A959-8791F8850DCB
P2860
Bifunctional xylanases and their potential use in biotechnology.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 26 March 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Bifunctional xylanases and their potential use in biotechnology.
@en
Bifunctional xylanases and their potential use in biotechnology.
@nl
type
label
Bifunctional xylanases and their potential use in biotechnology.
@en
Bifunctional xylanases and their potential use in biotechnology.
@nl
prefLabel
Bifunctional xylanases and their potential use in biotechnology.
@en
Bifunctional xylanases and their potential use in biotechnology.
@nl
P2860
P1476
Bifunctional xylanases and their potential use in biotechnology.
@en
P2093
Mondher Th Numan
Rakhee Khandeparker
P2860
P304
P356
10.1007/S10295-008-0342-9
P577
2008-03-26T00:00:00Z