在低氧浓度下分离出产碱菌属菌株L6以及通过不涉及(氯)儿茶酚的途径降解3-氯苯甲酸酯。
Isolation of Alcaligenes sp. strain L6 at low oxygen concentrations and degradation of 3-chlorobenzoate via a pathway not involving (chloro)catechols.
作者信息
Krooneman J, Wieringa E B, Moore E R, Gerritse J, Prins R A, Gottschal J C
机构信息
Department of Microbiology, University of Groningen, Haren, The Netherlands.
出版信息
Appl Environ Microbiol. 1996 Jul;62(7):2427-34. doi: 10.1128/aem.62.7.2427-2434.1996.
Abstract
Isolations of 3-chlorobenzoate (3CBA)-degrading aerobic bacteria under reduced O2 partial pressures yielded organisms which metabolized 3CBA via the gentisate or the protocatechuate pathway rather than via the catechol route. The 3CBA metabolism of one of these isolates, L6, which was identified as an Alcaligenes species, was studied in more detail. Resting-cell suspensions of L6 pregrown on 3CBA oxidized all known aromatic intermediates of both the gentisate and the protocatechuate pathways. Neither growth on nor respiration of catechol could be detected. Chloride production from 3CBA by L6 was strictly oxygen dependent. Cell-free extracts of 3CBA-grown L6 cells exhibited no catechol dioxygenase activity but possessed protocatechuate 3,4-dioxygenase, gentisate dioxygenase, and maleylpyruvate isomerase activities instead. In continuous culture with 3CBA as the sole growth substrate, strain L6 demonstrated an increased oxygen affinity with decreasing steady-state oxygen concentrations.
摘要
在降低的氧气分压下分离得到的降解3 - 氯苯甲酸(3CBA)的好氧细菌产生了通过龙胆酸或原儿茶酸途径而非儿茶酚途径代谢3CBA的微生物。对其中一株被鉴定为产碱菌属的分离株L6的3CBA代谢进行了更详细的研究。在3CBA上预培养的L6静止细胞悬液氧化了龙胆酸和原儿茶酸途径的所有已知芳香族中间体。未检测到儿茶酚的生长或呼吸作用。L6从3CBA产生氯离子严格依赖于氧气。在3CBA上生长的L6细胞的无细胞提取物没有儿茶酚双加氧酶活性,但具有原儿茶酸3,4 - 双加氧酶、龙胆酸双加氧酶和马来酰丙酮酸异构酶活性。在以3CBA作为唯一生长底物的连续培养中,菌株L6表现出随着稳态氧气浓度降低而增加的氧亲和力。
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