Metatranscriptomic and thermodynamic insights into medium-chain fatty acid production using an anaerobic microbiome

Scarborough, Matthew; Lawson, Christopher E.; Hamilton, Joshua J.; Donohue, Timothy J.; Noguera, Daniel R.

doi:10.1101/424762

Cited by 13 publications

(18 citation statements)

References 51 publications

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“…These observed results were consistent with the metabolic traits of butyrate-producing bacteria for butyrate production, which are normally identified in gut microbiome in healthy adults [32]. Moreover, we also found that Roseburia exhibited a high number of genes involved in xylulose-5-phosphate/fructose-6-phosphate phosphoketolase (Xfp, ECs: 4.1.2.9 and 4.1.2.22), which is the key catalytic enzyme in the hemicellulosic complex oligosaccharides fermentation pathway [34]. This finding is consistent with the most recent genome-scale metabolic reconstruction of the carbohydrate degradation and utilization pathways of Roseburia, which demonstrated the ability of Roseburia species to ferment pentoses (e.g., xylose and arabinose) and oligosaccharides (e.g., xylooligosaccharides, arabinoxylans and arabinogalactans) as carbon sources for growth through Xfp [35].…”

Section: Bacterial Community-wide Metabolic Functional Analysis Involsupporting

confidence: 83%

Analysis of Human Gut Microbiome: Taxonomy and Metabolic Functions in Thai Adults

Raethong

Nakphaichit

Suratannon

et al. 2021

Genes

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The gut microbiome plays a major role in the maintenance of human health. Characterizing the taxonomy and metabolic functions of the human gut microbiome is necessary for enhancing health. Here, we analyzed the metagenomic sequencing, assembly and construction of a meta-gene catalogue of the human gut microbiome with the overall aim of investigating the taxonomy and metabolic functions of the gut microbiome in Thai adults. As a result, the integrative analysis of 16S rRNA gene and whole metagenome shotgun (WMGS) sequencing data revealed that the dominant gut bacterial families were Lachnospiraceae and Ruminococcaceae of the Firmicutes phylum. Consistently, across 3.8 million (M) genes annotated from 163.5 gigabases (Gb) of WMGS sequencing data, a significant number of genes associated with carbohydrate metabolism of the dominant bacterial families were identified. Further identification of bacterial community-wide metabolic functions promisingly highlighted the importance of Roseburia and Faecalibacterium involvement in central carbon metabolism, sugar utilization and metabolism towards butyrate biosynthesis. This work presents an initial study of shotgun metagenomics in a Thai population-based cohort in a developing Southeast Asian country.

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Section: Bacterial Community-wide Metabolic Functional Analysis Involsupporting

confidence: 83%

Analysis of Human Gut Microbiome: Taxonomy and Metabolic Functions in Thai Adults

Raethong

Nakphaichit

Suratannon

et al. 2021

Genes

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“…Relative transcript abundances as a proxy for expression levels were calculated from the total filtered mRNA reads from 56 RNA samples, which were individually mapped against the recovered MAGs, normalized for respective genome length and sequencing depth and expressed as transcripts per million (TPM) (Supplementary Table 2 ) 19 , 43 . The two most abundant anammox MAGs (~18% relative abundance) together were significantly ( p < 0.05, Student’s t -test) responsible for the highest transcriptional activity during the 20 °C and 14 °C regimes, respectively (Fig.…”

Section: Resultsmentioning

confidence: 99%

Temperature modulates stress response in mainstream anammox reactors

et al. 2021

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Autotrophic nitrogen removal by anaerobic ammonium oxidizing (anammox) bacteria is an energy-efficient nitrogen removal process in wastewater treatment. However, full-scale deployment under mainstream conditions remains challenging for practitioners due to the high stress susceptibility of anammox bacteria towards fluctuations in dissolved oxygen (DO) and temperature. Here, we investigated the response of microbial biofilms with verified anammox activity to DO shocks under 20 °C and 14 °C. While pulse disturbances of 0.3 mg L−1 DO prompted only moderate declines in the NH4+ removal rates, 1.0 mg L−1 DO led to complete but reversible inhibition of the NH4+ removal activity in all reactors. Genome-centric metagenomics and metatranscriptomics were used to investigate the stress response on various biological levels. We show that temperature regime and strength of DO perturbations induced divergent responses from the process level down to the transcriptional profile of individual taxa. Community-wide gene expression differed significantly depending on the temperature regime in all reactors, and we found a noticeable impact of DO disturbances on genes involved in transcription, translation, replication and posttranslational modification at 20 °C but not 14 °C. Genome-centric analysis revealed that different anammox species and other key biofilm taxa differed in their transcriptional responses to distinct temperature regimes and DO disturbances.

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“…Beside substrate uptake kinetics, SBRs can be used for the fundamental understanding and mathematical description of the effect of product toxicity and changing ethanol-to-acetate ratios on chain elongating organisms in dynamic environments. Omics techniques in combination with metabolic modeling could be used to identify labor division in microbial communities fed with a complex substrate and gain a deeper understanding of the effect of environmental conditions on the metabolic flux though microbial communities ( Scarborough et al, 2018 ). Lastly, integrated reactor setups can be exploited for testing the industrial potential of different cultivation strategies.…”

Section: Discussionmentioning

confidence: 99%

Product Inhibition and pH Affect Stoichiometry and Kinetics of Chain Elongating Microbial Communities in Sequencing Batch Bioreactors

Allaart

Stouten

Sousa

et al. 2021

Front. Bioeng. Biotechnol.

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Anaerobic microbial communities can produce carboxylic acids of medium chain length (e.g., caproate, caprylate) by elongating short chain fatty acids through reversed β-oxidation. Ethanol is a common electron donor for this process. The influence of environmental conditions on the stoichiometry and kinetics of ethanol-based chain elongation remains elusive. Here, a sequencing batch bioreactor setup with high-resolution off-gas measurements was used to identify the physiological characteristics of chain elongating microbial communities enriched on acetate and ethanol at pH 7.0 ± 0.2 and 5.5 ± 0.2. Operation at both pH-values led to the development of communities that were highly enriched (>50%, based on 16S rRNA gene amplicon sequencing) in Clostridium kluyveri related species. At both pH-values, stably performing cultures were characterized by incomplete substrate conversion and decreasing biomass-specific hydrogen production rates during an operational cycle. The process stoichiometries obtained at both pH-values were different: at pH 7.0, 71 ± 6% of the consumed electrons were converted to caproate, compared to only 30 ± 5% at pH 5.5. Operating at pH 5.5 led to a decrease in the biomass yield, but a significant increase in the biomass-specific substrate uptake rate, suggesting that the organisms employ catabolic overcapacity to deal with energy losses associated to product inhibition. These results highlight that chain elongating conversions rely on a delicate balance between substrate uptake- and product inhibition kinetics.

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Metatranscriptomic and thermodynamic insights into medium-chain fatty acid production using an anaerobic microbiome

Cited by 13 publications

References 51 publications

Analysis of Human Gut Microbiome: Taxonomy and Metabolic Functions in Thai Adults

Analysis of Human Gut Microbiome: Taxonomy and Metabolic Functions in Thai Adults

Temperature modulates stress response in mainstream anammox reactors

Product Inhibition and pH Affect Stoichiometry and Kinetics of Chain Elongating Microbial Communities in Sequencing Batch Bioreactors

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