通过454焦磷酸测序技术对来自20个不同产氢反应器的微生物群落进行了研究。

Microbial communities from 20 different hydrogen-producing reactors studied by 454 pyrosequencing.

作者信息

Etchebehere Claudia, Castelló Elena, Wenzel Jorge, del Pilar Anzola-Rojas Mélida, Borzacconi Liliana, Buitrón Germán, Cabrol Lea, Carminato Vivian María, Carrillo-Reyes Julian, Cisneros-Pérez Crhistian, Fuentes Laura, Moreno-Andrade Iván, Razo-Flores Elías, Filippi Gonzalo Ruiz, Tapia-Venegas Estela, Toledo-Alarcón Javiera, Zaiat Marcelo

机构信息

Microbial Ecology Laboratory, BioGem Department, Biological Research Institute Clemente Estable, Ministery of Education, Av. Italia, 3318, Montevideo, Uruguay.

BioProA Laboratory, Chemical Engineering Institute, Engineering Faculty, University of the Republic, Herrera y Reissing, 565, Montevideo, Uruguay.

出版信息

Appl Microbiol Biotechnol. 2016 Apr;100(7):3371-84. doi: 10.1007/s00253-016-7325-y. Epub 2016 Jan 29.

DOI:10.1007/s00253-016-7325-y

PMID:26825820

Abstract

To provide new insight into the dark fermentation process, a multi-lateral study was performed to study the microbiology of 20 different lab-scale bioreactors operated in four different countries (Brazil, Chile, Mexico, and Uruguay). Samples (29) were collected from bioreactors with different configurations, operation conditions, and performances. The microbial communities were analyzed using 16S rRNA genes 454 pyrosequencing. The results showed notably uneven communities with a high predominance of a particular genus. The phylum Firmicutes predominated in most of the samples, but the phyla Thermotogae or Proteobacteria dominated in a few samples. Genera from three physiological groups were detected: high-yield hydrogen producers (Clostridium, Kosmotoga, Enterobacter), fermenters with low-hydrogen yield (mostly from Veillonelaceae), and competitors (Lactobacillus). Inocula, reactor configurations, and substrates influence the microbial communities. This is the first joint effort that evaluates hydrogen-producing reactors and operational conditions from different countries and contributes to understand the dark fermentation process.

摘要

为了深入了解暗发酵过程，开展了一项多边研究，以研究在四个不同国家（巴西、智利、墨西哥和乌拉圭）运行的20个不同实验室规模生物反应器的微生物学。从具有不同配置、操作条件和性能的生物反应器中采集了29个样本。使用16S rRNA基因454焦磷酸测序分析微生物群落。结果显示群落明显不均衡，某一特定属占主导地位。在大多数样本中厚壁菌门占主导，但在少数样本中栖热袍菌门或变形菌门占主导。检测到来自三个生理组的属：高产氢生产者（梭菌属、嗜高温菌属、肠杆菌属）、低产氢发酵菌（主要来自韦荣氏菌科）和竞争者（乳杆菌属）。接种物、反应器配置和底物会影响微生物群落。这是首次联合评估来自不同国家的产氢反应器和操作条件，并有助于理解暗发酵过程。

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通过454焦磷酸测序技术对来自20个不同产氢反应器的微生物群落进行了研究。

Microbial communities from 20 different hydrogen-producing reactors studied by 454 pyrosequencing.

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