2014
DOI: 10.1016/j.bbabio.2014.06.005
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A genomic view on syntrophic versus non-syntrophic lifestyle in anaerobic fatty acid degrading communities

Abstract: In sulfate-reducing and methanogenic environments complex biopolymers are hydrolyzed and degraded by fermentative micro-organisms that produce hydrogen, carbon dioxide and short chain fatty acids. Degradation of short chain fatty acids can be coupled to methanogenesis or to sulfate-reduction. Here we study from a genome perspective why some of these micro-organisms are able to grow in syntrophy with methanogens and others are not. Bacterial strains were selected based on genome availability and upon their abil… Show more

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Cited by 92 publications
(95 citation statements)
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“…Consequently, reduced particle size by the US and MW pre-treatments possibly stimulated the prevalence of this group. Clostridiales possesses diverse metabolic competences, and its members also show syntrophic capability, a mutualistic behaviour vital for complete anaerobic conversion of complex material (Worm et al 2014). At species level, a notable increase in relative abundance of S. sapovorans and S. wolfei during the later operating period of D MW further implies favouring of syntrophic bacteria by increased substrate availability.…”
Section: Bacterial Taxonomic Distributionmentioning
confidence: 99%
“…Consequently, reduced particle size by the US and MW pre-treatments possibly stimulated the prevalence of this group. Clostridiales possesses diverse metabolic competences, and its members also show syntrophic capability, a mutualistic behaviour vital for complete anaerobic conversion of complex material (Worm et al 2014). At species level, a notable increase in relative abundance of S. sapovorans and S. wolfei during the later operating period of D MW further implies favouring of syntrophic bacteria by increased substrate availability.…”
Section: Bacterial Taxonomic Distributionmentioning
confidence: 99%
“…The latter scenario is related to one of the most intriguing questions in syntrophy: how are the highpotential electrons derived from acyl-CoA oxidation to enoyl-CoA (E° ′ ≈ -10 mV) transferred to reduce protons to H 2 or CO 2 to formate against a huge thermodynamic barrier of ΔE ′ ≈ -250 mV (considering syntrophic concentrations of the formate/H 2 products)? The often suggested involvement of menaquinones and the membrane potential has not been experimentally demonstrated to date [Worm et al, 2014]. A gene annotated as an FeS oxidoreductase, oxr , is located next to the two encoding genes of ETF, etfAB .…”
Section: Discussionmentioning
confidence: 99%
“…On the molecular level, genes encoding key enzymes of important metabolic pathways in the biogas process such as methyl-coenzyme M reductase (isogenes mcr and mrt encoding coenzyme-B sulfoethylthiotransferase, EC 2.8.4.1, the key enzyme of methanogenesis, which is present in all and exclusively in methanogenic Archaea), formyl-tetrahydrofolate synthetase (or formate-tetrahydrofolate ligase, fhs, EC 6.3.4.3, key enzyme of the Wood-Ljungdahl-pathway) or certain hydrogenases (e.g. ech, hyd) and their transcripts are ideal bioindicators and targets of molecular biomarkers [4], and even more will be identified in the near future [11,99]. (RT)qPCR markers can be Fig.…”
Section: Microbial Guilds Bioindicators and Transcriptional Profilingmentioning
confidence: 99%
“…Syntrophic bacteria or anaerobic fungi partners of methanogens are difficult to cultivate and to study without their product-consuming associate. Modern characterization is typically initiated by genome or metagenome analysis, possibly leading to insights about special requirements that allow cultivation of pure isolates and studying their special physiological performances [10][11][12].…”
Section: Introductionmentioning
confidence: 99%