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本文引用的文献

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Preparation of specifically labeled C-(lignin)- and C-(cellulose)-lignocelluloses and their decomposition by the microflora of soil.特定标记的 C-(木质素)-和 C-(纤维素)-木质纤维素的制备及其被土壤微生物群落的分解。
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特定链霉菌菌株对木质纤维素的分解

Lignocellulose decomposition by selected streptomyces strains.

作者信息

Crawford D L

出版信息

Appl Environ Microbiol. 1978 Jun;35(6):1041-5. doi: 10.1128/aem.35.6.1041-1045.1978.

DOI:10.1128/aem.35.6.1041-1045.1978
PMID:677871
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC242982/
Abstract

From 30 actinomycete cultures isolated by enrichment technique on agar media containing newsprint as a primary carbon and energy source, three Streptomyces strains were selected for characterization of their lignocellulose-decomposing abilities. All three streptomycetes were capable of oxidizing specifically 14C-labeled lignocelluloses to 14CO2. These Streptomyces were shown to attack primarily the cellulosic (glucan) components, of which between 25 to 40% evolved as 14CO2 during 1,025 h of incubation depending upon the culture used. Lignin labeled lignocelluloses were also attacked, but to a lesser degree, with up to about 3.5% being oxidized to 14CO2 depending upon the culture used. Additionally, it was shown that purified 14C-labeled milled-wood lignin was attacked, with recoveries of up to 17.7% of the label was 14CO2. This is the first conclusive evidence to show that streptomycetes can decompose lignin.

摘要

通过在以新闻纸作为主要碳源和能源的琼脂培养基上采用富集技术分离出30种放线菌培养物,从中挑选出三株链霉菌菌株来表征它们分解木质纤维素的能力。所有这三株链霉菌都能够将特定的14C标记木质纤维素氧化为14CO2。这些链霉菌主要攻击纤维素(葡聚糖)成分,在1025小时的培养过程中,根据所用培养物的不同,有25%至40%的纤维素成分以14CO2的形式释放出来。标记了木质素的木质纤维素也会受到攻击,但程度较小,根据所用培养物的不同,高达约3.5%的木质纤维素被氧化为14CO2。此外,研究表明纯化的14C标记磨木木素也会受到攻击,标记物中有高达17.7%以14CO2的形式被回收。这是表明链霉菌能够分解木质素的首个确凿证据。