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鞘氨醇单胞菌新种对手性除草剂麦草畏的两种对映体[(RS)-2-(4-氯-2-甲基苯氧基)丙酸]进行对映选择性的完全微生物降解。

Complete microbial degradation of both enantiomers of the chiral herbicide mecoprop [(RS)-2-(4-chloro-2-methylphenoxy)propionic acid] in an enantioselective manner by Sphingomonas herbicidovorans sp. nov.

作者信息

Zipper C, Nickel K, Angst W, Kohler H P

机构信息

Swiss Federal Institute for Environmental Science and Technology (EAWAG), Dübendorf, Switzerland.

出版信息

Appl Environ Microbiol. 1996 Dec;62(12):4318-22. doi: 10.1128/aem.62.12.4318-4322.1996.

DOI:10.1128/aem.62.12.4318-4322.1996
PMID:8953704
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC168259/
Abstract

Sphingomonas herbicidovorans MH (previously designated Flavobacterium sp. strain MH) was able to utilize the chiral herbicide (RS)-2-(4-chloro-2-methylphenoxy)propionic acid (mecoprop) as the sole carbon and energy source. When strain MH was offered racemic mecoprop as the growth substrate, it could degrade both the (R) and the (S) enantiomer to completion, as shown by biomass formation, substrate consumption, and stoichiometric chloride release. However, the (S) enantiomer disappeared much faster from the culture medium than the (R) enantiomer. These results suggest the involvement of specific enzymes for the degradation of each enantiomer. This view was substantiated by the fact that resting cells of strain MH grown on (S)-mecoprop were able to degrade the (S) but not the (R) enantiomer of mecoprop. Accordingly, resting cells of strain MH grown on (R)-mecoprop preferentially metabolized the (R) enantiomer. Nevertheless, such cells could transform (S)-mecoprop at low rates. Oxygen uptake rates with resting cells confirmed the above view, as oxygen consumption was strongly dependent on the growth substrate. Cells grown on (R)-mecoprop showed oxygen uptake rates more than two times higher upon incubation with the (R) than upon incubation with the (S) enantiomer and vice versa.

摘要

食除草剂鞘氨醇单胞菌MH(以前称为黄杆菌属菌株MH)能够利用手性除草剂(RS)-2-(4-氯-2-甲基苯氧基)丙酸(甲羧除草醚)作为唯一的碳源和能源。当向菌株MH提供外消旋甲羧除草醚作为生长底物时,如生物量形成、底物消耗和化学计量的氯释放所示,它可以将(R)和(S)对映体都完全降解。然而,(S)对映体从培养基中消失的速度比(R)对映体快得多。这些结果表明,每种对映体的降解涉及特定的酶。菌株MH在(S)-甲羧除草醚上生长的静止细胞能够降解甲羧除草醚的(S)对映体而不能降解(R)对映体,这一事实证实了这一观点。因此,菌株MH在(R)-甲羧除草醚上生长的静止细胞优先代谢(R)对映体。然而,这类细胞能够以低速率转化(S)-甲羧除草醚。静止细胞的氧气摄取率证实了上述观点,因为氧气消耗强烈依赖于生长底物。在(R)-甲羧除草醚上生长的细胞与(R)对映体一起孵育时的氧气摄取率比与(S)对映体一起孵育时高两倍以上,反之亦然。

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