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Literature DB >> 35349090

The Carbon Source Effect on the Production of Ralstonia eutropha H16 and Proteomic Response Underlying Targeting the Bioconversion with Solar Fuels.

Yu Zhang^1,2, Jing Jiang^1,3, Yiran Zhang^2,4, Wangyin Wang¹, Xupeng Cao^5,6, Can Li⁷.

Abstract

Chemoautotrophic bacterium Ralstonia eutropha H16 can fix CO2 to bioplastic and is potentially useful for CO2 neutralization. Targeting the solar fuel-based plastic biomanufactory, the polyhydroxybutyrate (PHB) production between heterotrophy and chemoautotrophy conditions was evaluated and the proteomic responses of the R. eutropha H16 cells to different carbon and energy sources were investigated. The results show that the chemoautotrophic mode hardly affected the cellular PHB accumulation capacity. Benefited from the high coverage proteome data, the global response of R. eutropha H16 to different carbon and energy sources was presented with a 95% KEGG pathway annotation, and the genome-wide location-related protein expression pattern was also identified. PHB depolymerase Q0K9H3 was found as a key protein responding to the low carbon input while CO2 and H2 were used, and will be a new regulation target for further high PHB production based on solar fuels.

Entities: Chemical

Keywords: Depolymerase; Polyhydroxybutyrate; Proteome; Ralstonia eutropha H16; Solar fuel

Mesh：

Substances：

Year: 2022 PMID： 35349090 DOI： 10.1007/s12010-022-03887-8

Source DB: PubMed Journal: Appl Biochem Biotechnol ISSN： 0273-2289 Impact factor: 3.094

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References

29 in total

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Authors: Frank Reinecke; Alexander Steinbüchel
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The Carbon Source Effect on the Production of Ralstonia eutropha H16 and Proteomic Response Underlying Targeting the Bioconversion with Solar Fuels.

1. Complete nucleotide sequence of pHG1: a Ralstonia eutropha H16 megaplasmid encoding key enzymes of H(2)-based ithoautotrophy and anaerobiosis.

2. Comparative proteome analysis reveals four novel polyhydroxybutyrate (PHB) granule-associated proteins in Ralstonia eutropha H16.

Review 3. Engineering Microorganisms for Enhanced CO₂ Sequestration.

4. Solar Fuels and Solar Chemicals Industry.

5. Genome sequence of the bioplastic-producing "Knallgas" bacterium Ralstonia eutropha H16.

Review 6. A shortcut to carbon-neutral bioplastic production: Recent advances in microbial production of polyhydroxyalkanoates from C1 resources.

7. Ralstonia eutropha strain H16 as model organism for PHA metabolism and for biotechnological production of technically interesting biopolymers.

Review 8. Bacterial and other biological systems for polyester production.

Review 9. Genetics and control of CO(2) assimilation in the chemoautotroph Ralstonia eutropha.

Review 10. Photon management for augmented photosynthesis.

The Carbon Source Effect on the Production of Ralstonia eutropha H16 and Proteomic Response Underlying Targeting the Bioconversion with Solar Fuels.

1. Complete nucleotide sequence of pHG1: a Ralstonia eutropha H16 megaplasmid encoding key enzymes of H(2)-based ithoautotrophy and anaerobiosis.

2. Comparative proteome analysis reveals four novel polyhydroxybutyrate (PHB) granule-associated proteins in Ralstonia eutropha H16.

Review 3. Engineering Microorganisms for Enhanced CO2 Sequestration.

4. Solar Fuels and Solar Chemicals Industry.

5. Genome sequence of the bioplastic-producing "Knallgas" bacterium Ralstonia eutropha H16.

Review 6. A shortcut to carbon-neutral bioplastic production: Recent advances in microbial production of polyhydroxyalkanoates from C1 resources.

7. Ralstonia eutropha strain H16 as model organism for PHA metabolism and for biotechnological production of technically interesting biopolymers.

Review 8. Bacterial and other biological systems for polyester production.

Review 9. Genetics and control of CO(2) assimilation in the chemoautotroph Ralstonia eutropha.

Review 10. Photon management for augmented photosynthesis.

Review 3. Engineering Microorganisms for Enhanced CO₂ Sequestration.