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Matched Description: Cytidine and uridine are transported through their corresponding nucleoside hydrogen symporters … . Once cytidine is incorporated into the cytosol, it is deaminated through a reaction with water and a … hydrogen ion through a cytidine deaminase resulting in the release of ammonium and uridine. Uridine … and an alpha-D-ribose-1-phosphate. This compound is then transformed into an isomer D-ribose 5

Matched Description: Cytidine and uridine are transported through their corresponding nucleoside hydrogen symporters … . Once cytidine is incorporated into the cytosol, it is deaminated through a reaction with water and a … hydrogen ion through a cytidine deaminase resulting in the release of ammonium and uridine. Uridine … and an alpha-D-ribose-1-phosphate. This compound is then transformed into an isomer D-ribose 5

Matched Description: and a deoxycytidien deaminsa resultin in the release of a ammonium and a a deoxyuridine. The … -phosphate and a uracil. The degradation of thymidine starts with thymidine being introduced into the … resulting in the release of a thymine and a deoxyribose 1-phosphate.

Matched Description: carbon and energy source. Toluene enters the bacterial cell by passive diffusion due to its hydrophobic … . 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.

Matched Description: carbon and energy source. Toluene enters the bacterial cell by passive diffusion due to its hydrophobic … . 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.

Matched Description: carbon and energy source. Toluene enters the bacterial cell by passive diffusion due to its hydrophobic … . 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.

Matched Description: carbon and energy source. Toluene enters the bacterial cell by passive diffusion due to its hydrophobic … . 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.

Matched Description: carbon and energy source. Toluene enters the bacterial cell by passive diffusion due to its hydrophobic … . 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.

Matched Description: carbon and energy source. Toluene enters the bacterial cell by passive diffusion due to its hydrophobic … . 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.

Matched Description: Cytidine and uridine are transported through their corresponding nucleoside hydrogen symporters … . Once cytidine is incorporated into the cytosol, it is deaminated through a reaction with water and a … hydrogen ion through a cytidine deaminase resulting in the release of ammonium and uridine. Uridine … and an alpha-D-ribose-1-phosphate. This compound is then transformed into an isomer D-ribose 5