基于脂肪酸解毒作用发现新型聚酯生物合成基因的阳性选择系统。
Positive selection systems for discovery of novel polyester biosynthesis genes based on fatty acid detoxification.
作者信息
Kranz R G, Gabbert K K, Madigan M T
机构信息
Department of Biology, Washington University, St. Louis, Missouri 63130, USA.
出版信息
Appl Environ Microbiol. 1997 Aug;63(8):3010-3. doi: 10.1128/aem.63.8.3010-3013.1997.
Abstract
The photosynthetic bacterium Rhodobacter capsulatus can grow with short- to long-chain fatty acids as the sole carbon source (R. G. Kranz, K. K. Gabbert, T. A. Locke, and M. T. Madigan, Appl. Environ. Microbiol. 63:3003-3009, 1997). Concomitant with growth on fatty acids is the production to high levels of the polyester storage compounds called polyhydroxyalkanoates (PHAs). Here, we describe colony screening and selection systems to analyze the production of PHAs in R. capsulatus. A screen with Nile red dissolved in acetone distinguishes between PHA producers and nonproducers. Unlike the wild type, an R. capsulatus PhaC- strain with the gene encoding PHA synthase deleted is unable to grow on solid media containing high concentrations of certain fatty acids. It is proposed that this deficiency is due to the inability of the PhaC- strain to detoxify the surrounding medium by consumption of fatty acids and their incorporation into PHAs. This fatty acid toxicity phenotype is used in selection for the cloning and characterization of heterologous phaC genes.
摘要
光合细菌荚膜红细菌能够以短链到长链脂肪酸作为唯一碳源生长(R.G.克兰兹、K.K.加伯特、T.A.洛克和M.T.马迪根,《应用与环境微生物学》63:3003 - 3009,1997年)。在以脂肪酸生长的同时,会产生大量名为聚羟基脂肪酸酯(PHA)的聚酯储存化合物。在此,我们描述了用于分析荚膜红细菌中PHA产生的菌落筛选和选择系统。用溶解在丙酮中的尼罗红进行筛选可区分PHA产生菌和非产生菌。与野生型不同,缺失编码PHA合酶基因的荚膜红细菌PhaC-菌株无法在含有高浓度某些脂肪酸的固体培养基上生长。据推测,这种缺陷是由于PhaC-菌株无法通过消耗脂肪酸并将其掺入PHA来对周围培养基进行解毒。这种脂肪酸毒性表型用于筛选异源phaC基因并对其进行表征。
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