Data

RsphCyc genome-scale metabolic model

The University of Queensland
Associate Professor Adrian Oehmen (Aggregated by) Dr Akhila Shon (Aggregated by)
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.48610/a240004&rft.title=RsphCyc genome-scale metabolic model&rft.identifier=RDM ID: bc4b6ba0-3abf-4870-9b97-c7578df53a51&rft.publisher=The University of Queensland&rft.description=This is a genome-scale metabolic model (GSMM) of C. sphaeroides ATCC 17025. The pathway-genome database, which serves as the source for this model, is available for reference on the BioCyc web portal. The primary central carbon metabolism of the model is curated, although it may include uncurated reactions related to other metabolic pathways, such as secondary metabolism. The RsphCyc model was quantitatively validated under photoautotrophic condition (biomass and protein yield), aerobic heterotrophic condition (biomass yield), and anaerobic photoheterotrophic condition (specific growth rate, hydrogen production rate, and polyhydroxybutanoate production rate).&rft.creator=Associate Professor Adrian Oehmen&rft.creator=Dr Akhila Shon&rft.date=2025&rft_rights= https://guides.library.uq.edu.au/deposit-your-data/license-reuse-data-agreement&rft_subject=eng&rft_subject=BIOLOGICAL SCIENCES&rft_subject=Cell metabolism&rft_subject=Biochemistry and cell biology&rft.type=dataset&rft.language=English Access the data
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akhila.shon@uq.edu.au
School of Chemical Engineering

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This is a genome-scale metabolic model (GSMM) of C. sphaeroides ATCC 17025. The pathway-genome database, which serves as the source for this model, is available for reference on the BioCyc web portal. The primary central carbon metabolism of the model is curated, although it may include uncurated reactions related to other metabolic pathways, such as secondary metabolism. The RsphCyc model was quantitatively validated under photoautotrophic condition (biomass and protein yield), aerobic heterotrophic condition (biomass yield), and anaerobic photoheterotrophic condition (specific growth rate, hydrogen production rate, and polyhydroxybutanoate production rate).

Issued: 2025

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Biological Sciences | Biochemistry and Cell Biology | Cell Metabolism | eng |

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local : UQ:289097

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