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反硝化细菌芳香族陶厄氏菌AR-1菌株中芳香族化合物厌氧降解的两条不同途径。

Two distinct pathways for anaerobic degradation of aromatic compounds in the denitrifying bacterium Thauera aromatica strain AR-1.

作者信息

Philipp B, Schink B

机构信息

Fakultät für Biologie, Universität Konstanz, Germany.

出版信息

Arch Microbiol. 2000 Feb;173(2):91-6. doi: 10.1007/s002039900112.

DOI:10.1007/s002039900112
PMID:10795679
Abstract

Denitrifying bacteria degrade many different aromatic compounds anaerobically via the well-described benzoyl-CoA pathway. We have shown recently that the denitrifiers Azoarcus anaerobius and Thauera aromatica strain AR-1 use a different pathway for anaerobic degradation of resorcinol (1,3-dihydroxybenzene) and 3,5-dihydroxybenzoate, respectively. Both substrates are converted to hydroxyhydroquinone (1,2,4-trihydroxybenzene). In the membrane fraction of T. aromatica strain AR-1 cells grown with 3,5-dihydroxybenzoate, a hydroxyhydroquinone-dehydrogenating activity of 74 nmol min(-1)(mg protein)-1 was found. This activity was significantly lower in benzoate-grown cells. Benzoate-grown cells were not induced for degradation of 3,5-dihydroxybenzoate, and cells grown with 3,5-dihydroxybenzoate degraded benzoate only at a very low rate. With a substrate mixture of benzoate plus 3,5-dihydroxybenzoate, the cells showed diauxic growth. Benzoate was degraded first, while complete degradation of 3,5-dihydroxybenzoate occurred only after a long lag phase. The 3,5-dihydroxybenzoate-oxidizing and the hydroxyhydroquinone-dehydrogenating activities were fully induced only during 3,5-dihydroxybenzoate degradation. Synthesis of benzoyl-CoA reductase appeared to be significantly lower in 3,5-dihydroxybenzoate-grown cells as shown by immunoblotting. These results confirm that T. aromatica strain AR-1 harbors, in addition to the benzoyl-CoA pathway, a second, mechanistically distinct pathway for anaerobic degradation of aromatic compounds. This pathway is inducible and subject to catabolite repression by benzoate.

摘要

反硝化细菌通过广为人知的苯甲酰辅酶A途径厌氧降解多种不同的芳香族化合物。我们最近发现,反硝化菌厌氧偶氮弧菌和芳香陶厄氏菌AR-1菌株分别利用不同的途径厌氧降解间苯二酚(1,3-二羟基苯)和3,5-二羟基苯甲酸。两种底物都被转化为羟基对苯二酚(1,2,4-三羟基苯)。在用3,5-二羟基苯甲酸培养的芳香陶厄氏菌AR-1菌株细胞的膜组分中,发现羟基对苯二酚脱氢活性为74 nmol min(-1)(mg蛋白)-1。在以苯甲酸培养的细胞中,这种活性明显较低。以苯甲酸培养的细胞未被诱导降解3,5-二羟基苯甲酸,而用3,5-二羟基苯甲酸培养的细胞仅以非常低的速率降解苯甲酸。对于苯甲酸加3,5-二羟基苯甲酸的底物混合物,细胞呈现双相生长。首先降解苯甲酸,而3,5-二羟基苯甲酸的完全降解仅在很长的延滞期后才发生。3,5-二羟基苯甲酸氧化和羟基对苯二酚脱氢活性仅在3,5-二羟基苯甲酸降解期间被完全诱导。免疫印迹显示,在以3,5-二羟基苯甲酸培养的细胞中,苯甲酰辅酶A还原酶的合成似乎明显较低。这些结果证实,除了苯甲酰辅酶A途径外,芳香陶厄氏菌AR-1菌株还具有第二条机制上不同的芳香族化合物厌氧降解途径。该途径是可诱导的,并受到苯甲酸的分解代谢物阻遏。

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