Genomics and prevalence of bacterial and archaeal isolates from biogas-producing microbiomes

Genomics and prevalence of bacterial and archaeal isolates from biogas-producing microbiomes

To elucidate biogas microbial communities and processes, the application of high-throughput DNA analysis approaches is becoming increasingly important. Unfortunately, generated data can only partialy be interpreted rudimentary since databases lack reference sequences. Novel cellulolytic, hydrolytic,...

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Bibliographic Details
Published in:Biotechnology for biofuels 2017-11, Vol.10 (1), p.264-264, Article 264
Main Authors: Maus, Irena, Bremges, Andreas, Stolze, Yvonne, Hahnke, Sarah, Cibis, Katharina G, Koeck, Daniela E, Kim, Yong S, Kreubel, Jana, Hassa, Julia, Wibberg, Daniel, Weimann, Aaron, Off, Sandra, Stantscheff, Robbin, Zverlov, Vladimir V, Schwarz, Wolfgang H, König, Helmut, Liebl, Wolfgang, Scherer, Paul, McHardy, Alice C, Sczyrba, Alexander, Klocke, Michael, Pühler, Alfred, Schlüter, Andreas
Format: Article
Language:eng
Subjects:
Anaerobic digestion
Anaerobic microorganisms
Archaea
Archaeabacteria
Bacteria
Biogas
Biomethanation
Biopolymers
Carbon dioxide
Cellulose
Clostridium
Communities
Cultivation
Cultivation techniques
Defluviitoga tunisiensis
Deoxyribonucleic acid
DNA
Drug resistance
Fatty acids
Fermentation
Fragment recruitment
Gene expression
Gene sequencing
Genetic aspects
Genome sequencing
Genomes
Genotype
Identification and classification
Lactobacillus acidophilus
Manures
Methanoculleus bourgensis
Methanogenic archaea
Microbial activity
Microorganisms
Mucosa
New species
Nucleotide sequence
Physical characteristics
Plants (botany)
Polymers
Studies
Thermophilic bacteria
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Summary:To elucidate biogas microbial communities and processes, the application of high-throughput DNA analysis approaches is becoming increasingly important. Unfortunately, generated data can only partialy be interpreted rudimentary since databases lack reference sequences. Novel cellulolytic, hydrolytic, and acidogenic/acetogenic as well as methanogenic originating from different anaerobic digestion communities were analyzed on the genomic level to assess their role in biomass decomposition and biogas production. Some of the analyzed bacterial strains were recently described as new species and even genera, namely T3/55 , SD1D , M2/40 , M3/6 , ING2-E5B , and ING2-E5A . High-throughput genome sequencing of 22 anaerobic digestion isolates enabled functional genome interpretation, metabolic reconstruction, and prediction of microbial traits regarding their abilities to utilize complex bio-polymers and to perform specific fermentation pathways. To determine the prevalence of the isolates included in this study in different biogas systems, corresponding metagenome fragment mappings were done. was found to be abundant in three mesophilic biogas plants studied and slightly less abundant in a thermophilic biogas plant, whereas was only prominent in the thermophilic system. Moreover, several of the analyzed species were clearly detectable in the mesophilic biogas plants, but appeared to be only moderately abundant. Among the species for which genome sequence information was publicly available prior to this study, only the species , , and are of importance for the biogas microbiomes analyzed, but did not reach the level of abundance as determined for and . Isolation of key anaerobic digestion microorganisms and their functional interpretation was achieved by application of elaborated cultivation techniques and subsequent genome analyses. New isolates and their genome information extend the repository covering anaerobic digestion community members.
ISSN:1754-6834
1754-6834