Photo-Driven Highly Efficient One-Step CO2 Biomethanation with Engineered Photo-Synthetic Bacteria Rhodopseudomonas palustris
CO2 methanation is considered as a promising process for methane production and renewable energy storage. However, current methane production processes involve nonrenewable energy input or high temperature and pressure, which raises the concerns of sustainability. Here, a sustainable photo-driven on...
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| Published in | ACS sustainable chemistry & engineering Vol. 8; no. 26; pp. 9616 - 9621 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
06.07.2020
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| Subjects | |
| Online Access | Get full text |
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| Abstract | CO2 methanation is considered as a promising process for methane production and renewable energy storage. However, current methane production processes involve nonrenewable energy input or high temperature and pressure, which raises the concerns of sustainability. Here, a sustainable photo-driven one-step CO2 biomethanation approach using whole-cell biocatalysis was established by endowing the methanation capability to a photosynthetic bacterium (PSB). With simple genetic engineering of inherent dinitrogen reductase, the CO2 biomethanation PSB was constructed from facultative anaerobic bacteria of Rhodopseudomonas palustris CGMCC 1.2180. With this engineered PSB strain, one-step CO2 biomethanation powered by sustainable solar energy was realized at ambient temperature and pressure. After optimization, a record-high photo-driven bio-CH4 yield (CO2-to-CH4, 35% with 10 μmol/L CO2) was achieved. This study provided an efficient and sustainable methane-producing approach, demonstrating the great potential of bacterial methanation for CO2 transformation and solar energy harvesting. |
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| AbstractList | CO2 methanation is considered as a promising process for methane production and renewable energy storage. However, current methane production processes involve nonrenewable energy input or high temperature and pressure, which raises the concerns of sustainability. Here, a sustainable photo-driven one-step CO2 biomethanation approach using whole-cell biocatalysis was established by endowing the methanation capability to a photosynthetic bacterium (PSB). With simple genetic engineering of inherent dinitrogen reductase, the CO2 biomethanation PSB was constructed from facultative anaerobic bacteria of Rhodopseudomonas palustris CGMCC 1.2180. With this engineered PSB strain, one-step CO2 biomethanation powered by sustainable solar energy was realized at ambient temperature and pressure. After optimization, a record-high photo-driven bio-CH4 yield (CO2-to-CH4, 35% with 10 μmol/L CO2) was achieved. This study provided an efficient and sustainable methane-producing approach, demonstrating the great potential of bacterial methanation for CO2 transformation and solar energy harvesting. CO₂ methanation is considered as a promising process for methane production and renewable energy storage. However, current methane production processes involve nonrenewable energy input or high temperature and pressure, which raises the concerns of sustainability. Here, a sustainable photo-driven one-step CO₂ biomethanation approach using whole-cell biocatalysis was established by endowing the methanation capability to a photosynthetic bacterium (PSB). With simple genetic engineering of inherent dinitrogen reductase, the CO₂ biomethanation PSB was constructed from facultative anaerobic bacteria of Rhodopseudomonas palustris CGMCC 1.2180. With this engineered PSB strain, one-step CO₂ biomethanation powered by sustainable solar energy was realized at ambient temperature and pressure. After optimization, a record-high photo-driven bio-CH₄ yield (CO₂-to-CH₄, 35% with 10 μmol/L CO₂) was achieved. This study provided an efficient and sustainable methane-producing approach, demonstrating the great potential of bacterial methanation for CO₂ transformation and solar energy harvesting. |
| Author | Yong, Yang-Chun Ma, Liqin Zhou, Jun Wang, Yan-Zhai Fang, Zhen |
| AuthorAffiliation | Zhenjiang Key Laboratory of Advanced Sensing Materials and Devices Biofuels Institute, School of Environment Jiangsu University College of Biotechnology and Pharmaceutical Engineering |
| AuthorAffiliation_xml | – name: Biofuels Institute, School of Environment – name: College of Biotechnology and Pharmaceutical Engineering – name: Zhenjiang Key Laboratory of Advanced Sensing Materials and Devices – name: Jiangsu University |
| Author_xml | – sequence: 1 givenname: Liqin surname: Ma fullname: Ma, Liqin organization: Jiangsu University – sequence: 2 givenname: Zhen orcidid: 0000-0003-1622-9638 surname: Fang fullname: Fang, Zhen organization: Jiangsu University – sequence: 3 givenname: Yan-Zhai surname: Wang fullname: Wang, Yan-Zhai organization: Jiangsu University – sequence: 4 givenname: Jun orcidid: 0000-0002-3980-487X surname: Zhou fullname: Zhou, Jun email: zhoujun@njtech.edu.cn organization: College of Biotechnology and Pharmaceutical Engineering – sequence: 5 givenname: Yang-Chun orcidid: 0000-0003-1216-5163 surname: Yong fullname: Yong, Yang-Chun email: ycyong@ujs.edu.cn organization: Zhenjiang Key Laboratory of Advanced Sensing Materials and Devices |
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| Keywords | CO2 methanation Photo-synthetic bacteria Green catalysis Sustainability Solar energy |
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| Snippet | CO2 methanation is considered as a promising process for methane production and renewable energy storage. However, current methane production processes involve... CO₂ methanation is considered as a promising process for methane production and renewable energy storage. However, current methane production processes involve... |
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| SubjectTerms | ambient temperature bacteria biocatalysis carbon dioxide green chemistry methane production nitrogen nonrenewable resources oxidoreductases photosynthesis Rhodopseudomonas palustris solar energy |
| Title | Photo-Driven Highly Efficient One-Step CO2 Biomethanation with Engineered Photo-Synthetic Bacteria Rhodopseudomonas palustris |
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