Effect of Sulfate on Carbon Monoxide Conversion by a Thermophilic Syngas-Fermenting Culture Dominated by a Desulfofundulus Species

Effect of Sulfate on Carbon Monoxide Conversion by a Thermophilic Syngas-Fermenting Culture Dominated by a Desulfofundulus Species

A syngas-degrading enrichment culture, culture T-Syn, was dominated by a bacterium closely related to Desulfofundulus australicus strain AB33T (98% 16S rRNA gene sequence identity). Culture T-Syn could convert high CO concentrations (from pCO ≈ 34 kPa to pCO ≈ 170 kPa), both in the absence and in the presence of sulfate as external electron acceptor. The products formed from CO conversion were H2 and acetate. With sulfate, a lower H2/acetate ratio was observed in the product profile, but CO conversion rates were similar to those in the absence of sulfate. The ability of D. australicus strain AB33T to use CO was also investigated. D. australicus strain AB33T uses up to 40% CO (pCO ≈ 68 kPa) with sulfate and up to 20% CO (pCO ≈ 34 kPa) without sulfate. Comparison of the metagenome-assembled genome (MAG) of the Desulfofundulus sp. from T-Syn culture with the genome of D. australicus strain AB33T revealed high similarity, with an ANI value of 99% and only 32 unique genes in the genome of the Desulfofundulus sp. T-Syn. So far, only Desulfotomaculum nigrificans strain CO-1-SRB had been described to grow with CO with and without sulfate. This work further shows the carboxydotrophic potential of Desulfofundulus genus for CO conversion, both in sulfate-rich and low-sulfate environments.

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Main Authors: Alves, Joana I., Visser, Michael, Arantes, Ana L., Nijsse, Bart, Plugge, Caroline M., Alves, M.M., Stams, Alfons J.M., Sousa, Diana Z.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:carbon monoxide, carboxydotroph, metagenomics, sulfate-reducing bacterium, syngas fermentation,
Online Access:https://research.wur.nl/en/publications/effect-of-sulfate-on-carbon-monoxide-conversion-by-a-thermophilic
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spelling dig-wur-nl-wurpubs-5746672024-10-30 Alves, Joana I. Visser, Michael Arantes, Ana L. Nijsse, Bart Plugge, Caroline M. Alves, M.M. Stams, Alfons J.M. Sousa, Diana Z. Article/Letter to editor Frontiers in Microbiology 11 (2020) ISSN: 1664-302X Effect of Sulfate on Carbon Monoxide Conversion by a Thermophilic Syngas-Fermenting Culture Dominated by a Desulfofundulus Species 2020 A syngas-degrading enrichment culture, culture T-Syn, was dominated by a bacterium closely related to Desulfofundulus australicus strain AB33T (98% 16S rRNA gene sequence identity). Culture T-Syn could convert high CO concentrations (from pCO ≈ 34 kPa to pCO ≈ 170 kPa), both in the absence and in the presence of sulfate as external electron acceptor. The products formed from CO conversion were H2 and acetate. With sulfate, a lower H2/acetate ratio was observed in the product profile, but CO conversion rates were similar to those in the absence of sulfate. The ability of D. australicus strain AB33T to use CO was also investigated. D. australicus strain AB33T uses up to 40% CO (pCO ≈ 68 kPa) with sulfate and up to 20% CO (pCO ≈ 34 kPa) without sulfate. Comparison of the metagenome-assembled genome (MAG) of the Desulfofundulus sp. from T-Syn culture with the genome of D. australicus strain AB33T revealed high similarity, with an ANI value of 99% and only 32 unique genes in the genome of the Desulfofundulus sp. T-Syn. So far, only Desulfotomaculum nigrificans strain CO-1-SRB had been described to grow with CO with and without sulfate. This work further shows the carboxydotrophic potential of Desulfofundulus genus for CO conversion, both in sulfate-rich and low-sulfate environments. en application/pdf https://research.wur.nl/en/publications/effect-of-sulfate-on-carbon-monoxide-conversion-by-a-thermophilic 10.3389/fmicb.2020.588468 https://edepot.wur.nl/537140 carbon monoxide carboxydotroph metagenomics sulfate-reducing bacterium syngas fermentation https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic carbon monoxide
carboxydotroph
metagenomics
sulfate-reducing bacterium
syngas fermentation
carbon monoxide
carboxydotroph
metagenomics
sulfate-reducing bacterium
syngas fermentation
spellingShingle carbon monoxide
carboxydotroph
metagenomics
sulfate-reducing bacterium
syngas fermentation
carbon monoxide
carboxydotroph
metagenomics
sulfate-reducing bacterium
syngas fermentation
Alves, Joana I.
Visser, Michael
Arantes, Ana L.
Nijsse, Bart
Plugge, Caroline M.
Alves, M.M.
Stams, Alfons J.M.
Sousa, Diana Z.
Effect of Sulfate on Carbon Monoxide Conversion by a Thermophilic Syngas-Fermenting Culture Dominated by a Desulfofundulus Species
description A syngas-degrading enrichment culture, culture T-Syn, was dominated by a bacterium closely related to Desulfofundulus australicus strain AB33T (98% 16S rRNA gene sequence identity). Culture T-Syn could convert high CO concentrations (from pCO ≈ 34 kPa to pCO ≈ 170 kPa), both in the absence and in the presence of sulfate as external electron acceptor. The products formed from CO conversion were H2 and acetate. With sulfate, a lower H2/acetate ratio was observed in the product profile, but CO conversion rates were similar to those in the absence of sulfate. The ability of D. australicus strain AB33T to use CO was also investigated. D. australicus strain AB33T uses up to 40% CO (pCO ≈ 68 kPa) with sulfate and up to 20% CO (pCO ≈ 34 kPa) without sulfate. Comparison of the metagenome-assembled genome (MAG) of the Desulfofundulus sp. from T-Syn culture with the genome of D. australicus strain AB33T revealed high similarity, with an ANI value of 99% and only 32 unique genes in the genome of the Desulfofundulus sp. T-Syn. So far, only Desulfotomaculum nigrificans strain CO-1-SRB had been described to grow with CO with and without sulfate. This work further shows the carboxydotrophic potential of Desulfofundulus genus for CO conversion, both in sulfate-rich and low-sulfate environments.
format Article/Letter to editor
topic_facet carbon monoxide
carboxydotroph
metagenomics
sulfate-reducing bacterium
syngas fermentation
author Alves, Joana I.
Visser, Michael
Arantes, Ana L.
Nijsse, Bart
Plugge, Caroline M.
Alves, M.M.
Stams, Alfons J.M.
Sousa, Diana Z.
author_facet Alves, Joana I.
Visser, Michael
Arantes, Ana L.
Nijsse, Bart
Plugge, Caroline M.
Alves, M.M.
Stams, Alfons J.M.
Sousa, Diana Z.
author_sort Alves, Joana I.
title Effect of Sulfate on Carbon Monoxide Conversion by a Thermophilic Syngas-Fermenting Culture Dominated by a Desulfofundulus Species
title_short Effect of Sulfate on Carbon Monoxide Conversion by a Thermophilic Syngas-Fermenting Culture Dominated by a Desulfofundulus Species
title_full Effect of Sulfate on Carbon Monoxide Conversion by a Thermophilic Syngas-Fermenting Culture Dominated by a Desulfofundulus Species
title_fullStr Effect of Sulfate on Carbon Monoxide Conversion by a Thermophilic Syngas-Fermenting Culture Dominated by a Desulfofundulus Species
title_full_unstemmed Effect of Sulfate on Carbon Monoxide Conversion by a Thermophilic Syngas-Fermenting Culture Dominated by a Desulfofundulus Species
title_sort effect of sulfate on carbon monoxide conversion by a thermophilic syngas-fermenting culture dominated by a desulfofundulus species
url https://research.wur.nl/en/publications/effect-of-sulfate-on-carbon-monoxide-conversion-by-a-thermophilic
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