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As a major aldehyde pollutant widely existing in industry and our daily life, acetaldehyde is more and more harmful to human health. As characteristic habitat niche, bacteria from deep sea environments are abundant and distinctive in heredity, physiology and ecological functions. Thus, the development of acetaldehyde-degrading bacteria from deep sea provides a new method to harness acetaldehyde pollutant. Firstly, in this study,acetaldehyde-degrading bacteria in the deep sea water of the West Pacific Ocean were enriched in situ and in the laboratory respectively, and then the diversity of uncultured bacteria was studied by using 16 S r RNA genes. Then acetaldehyde-degrading strains were isolated from two samples, including enrichment in situ and enrichment in laboratory samples of deep sea water from the West Pacific Ocean using acetaldehyde as the sole carbon source,and then the ability of acetaldehyde degradation was detected. Our results showed that the main uncultured bacteria of two samples with different enrichment approaches were similar, including Proteobacteria,Actinobacteria, Firmicutes, Cyanobacteria, but the structure of bacterial community were significant different.Four subgroups, α, γ, δ and ε, were found in Proteobacteria group. The γ-Proteobacteria was dominant(63.5%clones in laboratory enriched sample, 75% clones in situ enriched sample). The species belonged to γ-Proteobacteria and their proportion was nearly identical between the two enrichment samples, and Vibrio was the predominant genus(45% in laboratory enriched sample, 48.5% in situ enriched sample), followed by Halomonas(9% in situ enriched sample) and Streptococcus(6% in laboratory enriched sample). A total of 12 acetaldehyde-degrading strains were isolated from the two samples, which belonged to Vibrio, Halomonas,Pseudoalteromonas, Pseudomonas and Bacillus of γ-Proteobacteria. Strains ACH-L-5, ACH-L-8 and ACH-S-12,belonging to Vibrio and Halomonas, have strong ability of acetaldehyde degradation, which could tolerate 1.5 g/L acetaldehyde and degrade 350 mg/L acetaldehyde within 24 hours. Our results indicated that bacteria of γ-Proteobacteria may play an important role in carbon cycle of deep sea environments, especial the bacteria belonging to Vibrio and Halomonas and these strains was suggested for their potentials in government of aldehyde pollutants. 相似文献
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琼胶酶是作用于琼胶的水解酶,在食品、化妆品和制药工业中有广泛的应用。本文建立了一种基于诱导模式和甘油补料优化的高细胞密度和高产β-琼胶酶策略,同时可以较好的控制乙酸盐产量。首先,在诱导前期采用不同的比生长速率(μ)的甘油指数补料策略。结果表明,低的比生长速率(μ=0.2)是细胞生长和β-琼胶酶产生的最佳条件。其次,研究了诱导阶段诱导温度和诱导物浓度对细胞生长和β-琼胶酶产生的影响。当异丙基-β-d-硫代半乳糖苷(IPTG)诱导时,在20℃下0.8mmol/L的IPTG诱导策略对β-琼胶酶的产生效果最佳。采用1.0g/(L·h)的乳糖连续补料策略诱导培养,β-琼胶酶活性达到112.5U/mL,是目前报道的产量最高的β-琼胶酶。此外,β-琼胶酶能直接酶解龙须菜粉,产生新琼寡糖,水解产物为新琼胶四糖(NA4)和新琼胶六糖(NA6)。本文的研究为β-琼胶酶的工业化生产和应用提供了较好的理论依据。 相似文献
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