农业沼气工程中厌氧真菌的存在及其转录活性。

Presence and transcriptional activity of anaerobic fungi in agricultural biogas plants.

机构信息

Department for Quality Assurance and Analytics, Bavarian State Research Center for Agriculture, Lange Point 6, 85354 Freising, Germany(1).

Institute of Biological Sciences, University of Wales, Aberystwyth, UK.

出版信息

Bioresour Technol. 2017 Jul;235:131-139. doi: 10.1016/j.biortech.2017.03.116. Epub 2017 Mar 22.

DOI:10.1016/j.biortech.2017.03.116

PMID:28365340

Abstract

Bioaugmentation with anaerobic fungi (AF) is promising for improved biogas generation from lignocelluloses-rich substrates. However, before implementing AF into biogas processes it is necessary to investigate their natural occurrence, community structure and transcriptional activity in agricultural biogas plants. Thus, AF were detected with three specific PCR based methods: (i) Copies of their 18S genes were found in 7 of 10 biogas plants. (ii) Transcripts of a GH5 endoglucanase gene were present at low level in two digesters, indicating transcriptional cellulolytic activity of AF. (iii) Phylogeny of the AF-community was inferred with the 28S gene. A new Piromyces species was isolated from a PCR-positive digester. Evidence for AF was only found in biogas plants operated with high proportions of animal feces. Thus, AF were most likely transferred into digesters with animal derived substrates. Additionally, high process temperatures in combination with long retention times seemed to impede AF survival and activity.

摘要

生物强化用厌氧真菌（AF）有望提高富含木质纤维素的底物的沼气产量。然而，在将 AF 应用于沼气工艺之前，有必要调查它们在农业沼气厂中的自然发生、群落结构和转录活性。因此，使用三种特定的基于 PCR 的方法检测到了 AF：（i）在 10 个沼气厂中的 7 个中发现了它们的 18S 基因的拷贝。（ii）在两个消化器中，低水平存在 GH5 内切葡聚糖酶基因的转录本，表明 AF 的转录纤维素活性。（iii）通过 28S 基因推断出 AF 群落的系统发育。从一个 PCR 阳性的消化器中分离到一种新的 Piromyces 种。只有在操作过程中含有高比例动物粪便的沼气厂中才发现 AF。因此，AF 很可能是随着动物来源的底物被转移到消化器中的。此外，高处理温度与长保留时间相结合似乎阻碍了 AF 的生存和活性。

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农业沼气工程中厌氧真菌的存在及其转录活性。

Presence and transcriptional activity of anaerobic fungi in agricultural biogas plants.

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