来自合成木质素的真菌降解中间体的有限细菌矿化作用
Limited bacterial mineralization of fungal degradation intermediates from synthetic lignin.
作者信息
Rüttimann C, Vicuña R, Mozuch M D, Kirk T K
机构信息
Laboratoria de Bioquimica, Facultad de Ciencias Biológicas, Pontificia Universidad Católica de Chile, Santiago.
出版信息
Appl Environ Microbiol. 1991 Dec;57(12):3652-5. doi: 10.1128/aem.57.12.3652-3655.1991.
Abstract
The ability of selected bacterial strains and consortia to mineralize degradation intermediates produced by Phanerochaete chrysosporium from 14C-labeled synthetic lignins was studied. Three different molecular weight fractions of the intermediates were subjected to the action of the bacteria, which had been grown on a lignin-related dimeric compound. Two consortia isolated from wood being decayed naturally by a Ganoderma species of white rot fungus (the palo podrido system) mineralized 10 to 11% of the fraction with a molecular weight of approximately 500 but less than 4% of the higher- and lower-molecular-weight fractions. The consortia mineralized 5 to 9% of the original lignins. The ability of two pseudomonads isolated earlier from lignin-rich environments to mineralize the original lignins or fungus degradation products was much lower.
摘要
研究了特定细菌菌株和菌群将黄孢原毛平革菌从14C标记的合成木质素产生的降解中间体矿化的能力。中间体的三种不同分子量级分受到在木质素相关二聚化合物上生长的细菌的作用。从被一种灵芝属白腐真菌自然腐烂的木材(腐朽系统)中分离出的两个菌群将分子量约为500但小于4%的高分子量和低分子量级分中的10%至11%矿化。这些菌群将原始木质素的5%至9%矿化。早期从富含木质素的环境中分离出的两种假单胞菌将原始木质素或真菌降解产物矿化的能力要低得多。
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