木薯废弃物相关细菌种类的分子特征及潜力

Elijah A.I. , Atanda O.O. , Popoola A.R. , Uzochukwu S.V.A.
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引用次数: 18

摘要

了解木薯废物(CW)中真正的微生物多样性是有效利用这种废物的基础。本文报道了利用分子工具鉴定与CW相关的细菌种类。利用16S rRNA引物,采用聚合酶链式反应(PCR)扩增总菌群和分离菌的16S rRNA基因。将总微生物群落DNA扩增子拼接到PCR-TRAP克隆载体上,用于转化大肠杆菌的感受态细胞并测序。序列通过比对GenBank中的序列进行鉴定。木薯皮共检出细菌24种,分别为芽胞杆菌-芽胞杆菌门(7种)、芽胞杆菌-乳酸杆菌门(12种)、γ -变形杆菌门(3种)、不动杆菌-放线菌门(1种)和未培养细菌(2种)。地衣芽孢杆菌(11.3%)和枯草芽孢杆菌(11.3%)为优势菌种。本研究发现的未培养细菌克隆株ncd1462c07c1和未培养堆肥细菌克隆株PS2630在木薯发酵中可能未见报道。在木薯废水中共检出26种细菌,包括芽孢杆菌-芽胞杆菌(5种)、芽孢杆菌-乳酸杆菌(18种)、γ -变形菌(2种)、不动杆菌-放线菌(1种)、β -变形菌(1种)和未培养细菌(1种)。以发酵乳杆菌(11.1%)为优势菌种,其次为植物乳杆菌(10.7%)。其中一些物种的潜力得到了强调。该研究表明,由于其丰富的细菌多样性,CW是一种重要的微生物资源。
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Molecular Characterization and Potential of Bacterial Species Associated with Cassava Waste

Knowledge of the true microbial diversity in cassava waste (CW) is fundamental to effective utilization of this waste. This paper reports, on the identification of bacteria species associated with CW, using molecular tools. The 16S rRNA gene of total bacteria community and bacterial isolates were amplified by Polymerase Chain Reaction (PCR) using 16S rRNA primers. Total microbial community DNA amplicons were spliced into the PCR-TRAP Cloning Vector, used to transform competent cells of Escherichia coli and sequenced. Sequences were identified by aligning with sequences in the GenBank. Twenty four bacterial species were detected in cassava peel (CP) belonging to Bacillus-Bacillales (7 species), Bacillus-Lactobacillales (12 species), Gamma-proteobacteria (3 species), Acinetobacteria-Actinomycetales (1 species) and uncultured bacteria (2 species). Bacillus licheniformis (11.3%) and B. substilis (11.3%) were the dominant species.

Azotobacter vinelandii, an uncultured bacterium clone ncd1462c07c1 and an uncultured compost bacteria clone PS2630 identified in this study, probably has not been reported in cassava fermentation. In cassava wastewater (CWW), 26 bacterial species were detected including Bacillus-Bacillales (5 species), Bacillus-Lactobacillales (18 species), Gamma-proteobacteria (2 species), Acinetobacteria-Actinomycetales (1 species), Beta-proteobacteria (1 species) and uncultured bacteria (1 species). Lactobacillus fermentum (11.1%) was the dominant species closely, followed by L. plantarum (10.7%). The potential of some of the species are highlighted. This study has shown that CW is an important microbial resource, considering its rich bacterial diversity.

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