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木质纤维素分解复合菌系WSD-5组成菌株的分离及其产酶特性
引用本文:王小娟,袁旭峰,王慧,李培培,王小芬,崔宗均. 木质纤维素分解复合菌系WSD-5组成菌株的分离及其产酶特性[J]. 微生物学通报, 2011, 38(4): 508-515
作者姓名:王小娟  袁旭峰  王慧  李培培  王小芬  崔宗均
作者单位:中国农业大学,农学与生物技术学院,生物质工程中心,北京,100193
基金项目:国家“十一五”支持计划项目(No. 2006BAD07A01, 2008BADC4B01); 国家公益性行业(农业)科技计划(No. 200803033)
摘    要:复合菌系WSD-5具有高效的分解能力和产酶能力,以探明WSD-5的协同分解机理和优化高效组合为目的,通过纯培养分离手段,获得了11株细菌和3株真菌。16S rDNA比对结果表明,细菌分别为Pseudomonas sp.、Pseudomonas aeruginosa、Achromobacter sp.、Stenotrophomonas sp.、Bacillus fusiformis、Bacillus cereus、Brevundimonas sp.、Ochrobactrum sp.、Cytophaga sp.、Benzo(a)pyrene-degrading bacter、Flavobacterium sp.的近缘种;26S rDNA比对结果表明3株真菌分别为Pseudallescheria boydii、Coprinus cinereus的近缘种。分离菌株中有4株细菌和3株真菌能在CMC平板上产生透明圈,但以糖化力法测定酶活结果只有3株真菌具有产酶能力。3株真菌的酶活动态测定结果,酶活的高峰均出现在7?14 d,并且呈现多峰变化;3株真菌的酶活种类表现为,滤纸酶活性、纤维素内切酶活性和外切酶活性均以菌株F1最高,分别达到了1.05、5.53和0.56 U/mL,β-葡萄糖甘酶活性和木聚糖酶活性以菌株FC最高,分别达到0.44和58.95 U/mL,其木聚糖酶活为F1最高值的6倍。

关 键 词:木质纤维素分解  复合菌系  滤纸酶活性  纤维素酶活性  木聚糖酶活性

Isolation and enzymatic characteristics of the microorganisms in lignocellulose-degradation microbial community WSD-5
WANG Xiao-Juan,YUAN Xu-Feng,WANG Hui,LI Pei-Pei,WANG Xiao-Fen and CUI Zong-Jun. Isolation and enzymatic characteristics of the microorganisms in lignocellulose-degradation microbial community WSD-5[J]. Microbiology China, 2011, 38(4): 508-515
Authors:WANG Xiao-Juan  YUAN Xu-Feng  WANG Hui  LI Pei-Pei  WANG Xiao-Fen  CUI Zong-Jun
Affiliation:College of Agronomy and Biotechnology/Center of Biomass Engineering, China Agricultural University, Beijing 100193, China
Abstract:The microbial community WSD-5 could not only degrade wheat straw but also secret ex-tracellular enzyme efficiently.In order to further study the synergistic decomposition mechanism of WSD-5 and optimize the microbial combination,11 bacterial strains and 3 fungal strains were isolated from the microbial community WSD-5.The closest relatives of 11 bacterial strains were Pseudomonas sp.,Pseudomonas aeruginosa,Achromobacter sp.,Stenotrophomonas sp.,Bacillus fusiformis,Bacillus cereus,Brevundimonas sp.,Ochrobact...
Keywords:Lignocellulose degradation   Microbial community   Filter paper enzyme activity   Cellulase activity   Xylanase activity
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