Prevalence of Proteobacteria and Armatimonadetes phyla in a Photobioreactor under Carbon- and Nitrogen-Free Production Process

P. Tamez-guerra, Jesús O. Zuñiga-Sanchez, A. Orozco-Flores, J. A. Valadez-Lira, C. Rodríguez-Padilla, Rosa O. Caizares-Villanueva, R. Gomez-flores
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引用次数: 2

Abstract

In prokaryotes, the autotrophic population within the bacteria kingdom presents great biotechnological potential. For taxonomic analysis of species, the sequence encoding the small subunit ribosomal RNA gene (16S rRNA) is currently the most reliable technique for phylogenetic bacterial classification. Sequencing can define the population diversity and ecological importance within a habitat. The study of autotrophic bacteria population dynamics in a photobioreactor using a carbon and nitrogen free culture medium could provide information about succession dynamics under controlled conditions. The aim of this study was to identify the bacterial populations present in a photobioreactor by 16S rRNA amplicon sequence comparison from samples taken at 0, 7, and 14 fermentation days. Most of the identified clones were described to the level of genera from the following phyla: Proteobacteria (40%), Armatimonadetes (35%), Firmicutes (17.5%), Actinobacteria (2.5%), and Cyanobacteria/Chloroplast (2.5%). Bacterial strains from those phyla have been reported in aquatic environments and were considered uncultivable; however, sequences indicated the presence of the clones A-123 (ID: HQ860522.1) from time 0, and YHS25 (GU305825.1) after 7 days of culture. Our findings demonstrated the major presence of autotrophic bacterial populations of the Proteobacteria and Armatimonadetes phyla, which grew under artificial culture conditions in a photobioreactor.
无碳、无氮生产过程下光生物反应器中变形菌门和Armatimonadetes门的流行
在原核生物中,细菌王国内的自养种群呈现出巨大的生物技术潜力。对于物种的分类分析,编码小亚基核糖体RNA基因(16S rRNA)的序列是目前最可靠的系统发育细菌分类技术。测序可以确定一个栖息地内的种群多样性和生态重要性。利用无氮无碳培养基对光生物反应器中自养细菌种群动态进行研究可以提供受控条件下的演替动态信息。本研究的目的是通过比较发酵0、7和14天样品的16S rRNA扩增子序列来鉴定光生物反应器中存在的细菌群体。大多数鉴定的无性系被描述为以下门的属水平:变形菌门(40%),Armatimonadetes(35%),厚壁菌门(17.5%),放线菌门(2.5%)和蓝藻/叶绿体(2.5%)。据报道,这些门的细菌菌株在水生环境中被认为是不可培养的;然而,序列显示从第0时刻开始存在A-123 (ID: HQ860522.1),在培养7天后存在YHS25 (GU305825.1)。我们的研究结果表明,在光生物反应器的人工培养条件下,主要存在变形菌门和Armatimonadetes门的自养细菌种群。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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