High-tolerance phenylamine degrading bacterium and application thereof
An aniline-degrading bacteria and tolerance technology, applied in the direction of bacteria, water/sludge/sewage treatment, biochemical equipment and methods, etc., can solve the problems of ecological environment pollution, refractory degradation, high toxicity, etc., to reduce treatment costs, The effect of high application value and broad application prospects
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Embodiment 1
[0029] Example 1: This example illustrates the method for obtaining highly tolerant aniline-degrading bacteria MC-01 strain.
[0030] In this example, the aniline-degrading bacteria MC-01 was obtained from the activated sludge in the aeration tank of the sewage treatment workshop of Nanjing Oil Refinery through primary screening and then secondary screening. The primary screening is based on the growth of the strains in the high-concentration aniline medium to screen out bacteria with a short adaptation period and strong metabolism. Based on the higher aniline degradation rate, high tolerance strains with better degradation efficiency were screened out.
[0031] where each liter of aniline selection medium consists of KH 2 PO 4 2 g, MgSO 4 1 g, NaCl 2 g, purified agar, 18 g, distilled water 1000 mL, heated to dissolve, sterilized at 121 °C for 20 min, and when the culture medium cooled down to about 50 °C, add 1000 mg of sterile aniline in a clean bench and mix well.
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Embodiment 2
[0043] Embodiment 2 This embodiment illustrates the physiological and biochemical characteristics of the aniline-degrading bacteria MC-01 strain of the present invention
[0044] The strain of the invention is a Gram-negative aerobic bacterium, rod-shaped; milky-white colonies are formed on the beef extract peptone medium, round, translucent, smooth in surface, round and smooth in edge, and easy to provoke.
[0045] In this embodiment, the high-tolerant aniline-degrading bacteria MC-01 is routinely identified physiologically and biochemically on the highly-tolerant aniline-degrading bacteria MC-01 according to the "Bergey's Bacteriological Identification Manual". Indole test positive, ammonia production test positive, methyl red test reaction negative, starch hydrolysis negative, acetyl methyl alcohol test negative, nitrate reduction reaction negative, citric acid utilization positive, glucose utilization, ethanol or aldose oxidation.
[0046] In this embodi...
Embodiment 3
[0047] Embodiment 3 This embodiment illustrates the molecular biology system identification of aniline-degrading bacteria MC-01 bacterial classification of the present invention
[0048] According to "Bergey's Bacteriological Identification Manual", the routine physiological and biochemical identification of aniline-degrading bacteria MC-01 was carried out, and the total bacterial DNA was extracted by CTAB method. The obtained bacterial genomic DNA was amplified by PCR with bacterial 16SrDNA primers. After electrophoresis, the PCR product was recovered by tapping the gel. Suzhou Jinweizhi Biotechnology Co., Ltd. was entrusted to perform 16SrDNA sequencing. The results were synchronized with the 16SrDNA sequences registered in Genbank using BLAST software. According to the source comparison, it is found that the most similar species of the highly resistant aniline-degrading bacteria MC-01 obtained in this embodiment is Paleobacterium genus ( Ochrobactrum ), the homology c...
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