| PathWhiz ID | Pathway | Meta Data |
|---|---|---|
PW176340
View Pathway
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Methylergometrine Predicted Metabolism PathwayHomo sapiens
Metabolites of sildenafil are predicted with biotransformer.
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Creator: Omolola Created On: December 07, 2023 at 15:17 Last Updated: December 07, 2023 at 15:17 |
PW146985
View Pathway
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Methylergonovine Drug Metabolism PathwayHomo sapiens
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Creator: Ray Kruger Created On: October 10, 2023 at 13:35 Last Updated: October 10, 2023 at 13:35 |
PW341680
View Pathway
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Methylglyoxal Degradation IVeillonella dispar ATCC 17748
The degradation of methylglyoxal starts with methylglyoxal being degraded by interacting with glutathione and a glyoxalase resulting in the release of a (R)-S-lactoylglutatione. This compound in turn reacts with a water molecule through a glyoxalase II resulting in the releas of glutathione, a hydrogen ion and an R-lactate. The R-lactate in turn reacts with an ubiquinone through a D-lactate dehydrogenase resulting in the release of an ubiquinol and a pyruvate which can then be incorporated the pyruvate metabolism
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Creator: Julia Wakoli Created On: October 31, 2024 at 09:40 Last Updated: October 31, 2024 at 09:40 |
PW355819
View Pathway
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Methylglyoxal Degradation IEscherichia coli O157:H7 str. EC4115
The degradation of methylglyoxal starts with methylglyoxal being degraded by interacting with glutathione and a glyoxalase resulting in the release of a (R)-S-lactoylglutatione. This compound in turn reacts with a water molecule through a glyoxalase II resulting in the releas of glutathione, a hydrogen ion and an R-lactate. The R-lactate in turn reacts with an ubiquinone through a D-lactate dehydrogenase resulting in the release of an ubiquinol and a pyruvate which can then be incorporated the pyruvate metabolism
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Creator: Julia Wakoli Created On: November 11, 2024 at 20:27 Last Updated: November 11, 2024 at 20:27 |
PW355833
View Pathway
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Methylglyoxal Degradation IEscherichia coli O55:H7 str. CB9615
The degradation of methylglyoxal starts with methylglyoxal being degraded by interacting with glutathione and a glyoxalase resulting in the release of a (R)-S-lactoylglutatione. This compound in turn reacts with a water molecule through a glyoxalase II resulting in the releas of glutathione, a hydrogen ion and an R-lactate. The R-lactate in turn reacts with an ubiquinone through a D-lactate dehydrogenase resulting in the release of an ubiquinol and a pyruvate which can then be incorporated the pyruvate metabolism
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Creator: Julia Wakoli Created On: November 11, 2024 at 20:32 Last Updated: November 11, 2024 at 20:32 |
PW355814
View Pathway
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Methylglyoxal Degradation IEscherichia coli APEC O1
The degradation of methylglyoxal starts with methylglyoxal being degraded by interacting with glutathione and a glyoxalase resulting in the release of a (R)-S-lactoylglutatione. This compound in turn reacts with a water molecule through a glyoxalase II resulting in the releas of glutathione, a hydrogen ion and an R-lactate. The R-lactate in turn reacts with an ubiquinone through a D-lactate dehydrogenase resulting in the release of an ubiquinol and a pyruvate which can then be incorporated the pyruvate metabolism
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Creator: Julia Wakoli Created On: November 11, 2024 at 20:25 Last Updated: November 11, 2024 at 20:25 |
PW355821
View Pathway
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Methylglyoxal Degradation IEscherichia coli UMN026
The degradation of methylglyoxal starts with methylglyoxal being degraded by interacting with glutathione and a glyoxalase resulting in the release of a (R)-S-lactoylglutatione. This compound in turn reacts with a water molecule through a glyoxalase II resulting in the releas of glutathione, a hydrogen ion and an R-lactate. The R-lactate in turn reacts with an ubiquinone through a D-lactate dehydrogenase resulting in the release of an ubiquinol and a pyruvate which can then be incorporated the pyruvate metabolism
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Creator: Julia Wakoli Created On: November 11, 2024 at 20:27 Last Updated: November 11, 2024 at 20:27 |
PW355826
View Pathway
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Methylglyoxal Degradation IEscherichia coli ED1a
The degradation of methylglyoxal starts with methylglyoxal being degraded by interacting with glutathione and a glyoxalase resulting in the release of a (R)-S-lactoylglutatione. This compound in turn reacts with a water molecule through a glyoxalase II resulting in the releas of glutathione, a hydrogen ion and an R-lactate. The R-lactate in turn reacts with an ubiquinone through a D-lactate dehydrogenase resulting in the release of an ubiquinol and a pyruvate which can then be incorporated the pyruvate metabolism
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Creator: Julia Wakoli Created On: November 11, 2024 at 20:29 Last Updated: November 11, 2024 at 20:29 |
PW341611
View Pathway
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Methylglyoxal Degradation IBacteroides oleiciplenus YIT 12058
The degradation of methylglyoxal starts with methylglyoxal being degraded by interacting with glutathione and a glyoxalase resulting in the release of a (R)-S-lactoylglutatione. This compound in turn reacts with a water molecule through a glyoxalase II resulting in the releas of glutathione, a hydrogen ion and an R-lactate. The R-lactate in turn reacts with an ubiquinone through a D-lactate dehydrogenase resulting in the release of an ubiquinol and a pyruvate which can then be incorporated the pyruvate metabolism
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Creator: Julia Wakoli Created On: October 31, 2024 at 08:53 Last Updated: October 31, 2024 at 08:53 |
PW341609
View Pathway
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Methylglyoxal Degradation IBacteroides fluxus YIT 12057
The degradation of methylglyoxal starts with methylglyoxal being degraded by interacting with glutathione and a glyoxalase resulting in the release of a (R)-S-lactoylglutatione. This compound in turn reacts with a water molecule through a glyoxalase II resulting in the releas of glutathione, a hydrogen ion and an R-lactate. The R-lactate in turn reacts with an ubiquinone through a D-lactate dehydrogenase resulting in the release of an ubiquinol and a pyruvate which can then be incorporated the pyruvate metabolism
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Creator: Julia Wakoli Created On: October 31, 2024 at 08:51 Last Updated: October 31, 2024 at 08:51 |