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Pathway Description
Toluene degradation
Aromatoleum aromaticum
Metabolic Pathway
Toluene degradation allows bacteria to use toluene, a common environmental pollutant, as both a carbon and energy source. Toluene enters the bacterial cell by passive diffusion due to its hydrophobic nature. Once within the cell, toluene undergoes a variety of enzymatic reactions. The first step is for the Gamma-Subunit of benzylsuccinate synthase to convert it into benzylsuccinate. This intermediate is then converted to Benzylsuccinyl-CoA by subunit of Benzylsuccinate CoA-transferases. Subsequently, Benzylsuccinyl-CoA undergoes a series of enzymatic reactions to form Benzoylsuccinyl-CoA, and finally benzoyl-CoA, which enters the benzoate degradation pathway, providing the bacteria with energy and carbon for growth and survival.
References
Toluene degradation References
Kanehisa, M., 2002, November. The KEGG database. In ‘In silico’simulation of biological processes: Novartis Foundation Symposium 247 (Vol. 247, pp. 91-103). Chichester, UK: John Wiley & Sons, Ltd.
UniProt Consortium, 2019. UniProt: a worldwide hub of protein knowledge. Nucleic acids research, 47(D1), pp.D506-D515.
Kim, S., Thiessen, P.A., Bolton, E.E., Chen, J., Fu, G., Gindulyte, A., Han, L., He, J., He, S., Shoemaker, B.A. and Wang, J., 2016. PubChem substance and compound databases. Nucleic acids research, 44(D1), pp.D1202-D1213.
de Matos, P., Adams, N., Hastings, J., Moreno, P. and Steinbeck, C., 2012. A database for chemical proteomics: ChEBI. Chemical Proteomics: Methods and Protocols, pp.273-296.
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