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PathWhiz ID Pathway Meta Data

PW465777

Pw465777 View Pathway
metabolic

Hexuronide and Hexuronate Degradation

Escherichia coli E24377A
Beta-D-glucuronosides, D-glucuronate and D-fructuronate can be used as a source of carbon for E.coli. They are imported into E.coli's periplasmic space by membrane-associated protein (UidC/gusC), and are further imported into cytoplasm by hydrogen symporter. Beta-glucuronides undergoes hydrolysis by beta-D-glucuronidase to form D-glucuronate. D-glucuronate is isomerized by D-glucuronate isomerase to form D-fructuronate. D-fructuronate is further reduced to D-mannonate by D-mannonate oxidoreductase. D-mannonate dehydratase dehydrated to yield 2-dehydro-3-deoxy-D-gluconate. At this point, a common enzyme, 2-keto-3-deoxygluconokinase, phosphorylates 2-dehydro-3-deoxy-D-gluconate to yield 2-dehydro-3-deoxy-D-gluconate-6-phosphate. This product is then process by KHG/KDPG aldolase which in turn produces D-Glyceraldehyde 3-phosphate and Pyruvic Acid which then go into their respective sub pathways: glycolysis and pyruvate dehydrogenase. The pathway can also start from 3 other points: a hydrogen ion symporter (gluconate/fructuronate transporter GntP) of D-fructuronate, a hydrogen ion symporter (Hexuronate transporter) of aldehydo-D-galacturonate that spontaneously turns into D-tagaturonate. This compound can also be obtained by the reaction of aldehydo-L-galactonate with a NAD dependent l-galactonate oxidoreductase resulting in the release of NADH, hydrogen ion. Tagaturonate then undergoes an NADH-dependent reduction to D-altronate through an altronate oxidoreductase. D-altronate undergoes dehydration to yield 2-dehydro-3-deoxy-D-gluconate, the third and last point where the reaction can start from a hydrogen symporter of a 2-dehydro-3-deoy-D-gluconate.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: January 21, 2025 at 07:55

Last Updated: January 21, 2025 at 07:55

PW465796

Pw465796 View Pathway
metabolic

Hexuronide and Hexuronate Degradation

Escherichia coli HS
Beta-D-glucuronosides, D-glucuronate and D-fructuronate can be used as a source of carbon for E.coli. They are imported into E.coli's periplasmic space by membrane-associated protein (UidC/gusC), and are further imported into cytoplasm by hydrogen symporter. Beta-glucuronides undergoes hydrolysis by beta-D-glucuronidase to form D-glucuronate. D-glucuronate is isomerized by D-glucuronate isomerase to form D-fructuronate. D-fructuronate is further reduced to D-mannonate by D-mannonate oxidoreductase. D-mannonate dehydratase dehydrated to yield 2-dehydro-3-deoxy-D-gluconate. At this point, a common enzyme, 2-keto-3-deoxygluconokinase, phosphorylates 2-dehydro-3-deoxy-D-gluconate to yield 2-dehydro-3-deoxy-D-gluconate-6-phosphate. This product is then process by KHG/KDPG aldolase which in turn produces D-Glyceraldehyde 3-phosphate and Pyruvic Acid which then go into their respective sub pathways: glycolysis and pyruvate dehydrogenase. The pathway can also start from 3 other points: a hydrogen ion symporter (gluconate/fructuronate transporter GntP) of D-fructuronate, a hydrogen ion symporter (Hexuronate transporter) of aldehydo-D-galacturonate that spontaneously turns into D-tagaturonate. This compound can also be obtained by the reaction of aldehydo-L-galactonate with a NAD dependent l-galactonate oxidoreductase resulting in the release of NADH, hydrogen ion. Tagaturonate then undergoes an NADH-dependent reduction to D-altronate through an altronate oxidoreductase. D-altronate undergoes dehydration to yield 2-dehydro-3-deoxy-D-gluconate, the third and last point where the reaction can start from a hydrogen symporter of a 2-dehydro-3-deoy-D-gluconate.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: January 21, 2025 at 08:10

Last Updated: January 21, 2025 at 08:10

PW466174

Pw466174 View Pathway
metabolic

Hexuronide and Hexuronate Degradation

Escherichia coli O55:H7 str. CB9615
Beta-D-glucuronosides, D-glucuronate and D-fructuronate can be used as a source of carbon for E.coli. They are imported into E.coli's periplasmic space by membrane-associated protein (UidC/gusC), and are further imported into cytoplasm by hydrogen symporter. Beta-glucuronides undergoes hydrolysis by beta-D-glucuronidase to form D-glucuronate. D-glucuronate is isomerized by D-glucuronate isomerase to form D-fructuronate. D-fructuronate is further reduced to D-mannonate by D-mannonate oxidoreductase. D-mannonate dehydratase dehydrated to yield 2-dehydro-3-deoxy-D-gluconate. At this point, a common enzyme, 2-keto-3-deoxygluconokinase, phosphorylates 2-dehydro-3-deoxy-D-gluconate to yield 2-dehydro-3-deoxy-D-gluconate-6-phosphate. This product is then process by KHG/KDPG aldolase which in turn produces D-Glyceraldehyde 3-phosphate and Pyruvic Acid which then go into their respective sub pathways: glycolysis and pyruvate dehydrogenase. The pathway can also start from 3 other points: a hydrogen ion symporter (gluconate/fructuronate transporter GntP) of D-fructuronate, a hydrogen ion symporter (Hexuronate transporter) of aldehydo-D-galacturonate that spontaneously turns into D-tagaturonate. This compound can also be obtained by the reaction of aldehydo-L-galactonate with a NAD dependent l-galactonate oxidoreductase resulting in the release of NADH, hydrogen ion. Tagaturonate then undergoes an NADH-dependent reduction to D-altronate through an altronate oxidoreductase. D-altronate undergoes dehydration to yield 2-dehydro-3-deoxy-D-gluconate, the third and last point where the reaction can start from a hydrogen symporter of a 2-dehydro-3-deoy-D-gluconate.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: January 21, 2025 at 11:54

Last Updated: January 21, 2025 at 11:54

PW466725

Pw466725 View Pathway
metabolic

Hexuronide and Hexuronate Degradation

Escherichia coli 042
Beta-D-glucuronosides, D-glucuronate and D-fructuronate can be used as a source of carbon for E.coli. They are imported into E.coli's periplasmic space by membrane-associated protein (UidC/gusC), and are further imported into cytoplasm by hydrogen symporter. Beta-glucuronides undergoes hydrolysis by beta-D-glucuronidase to form D-glucuronate. D-glucuronate is isomerized by D-glucuronate isomerase to form D-fructuronate. D-fructuronate is further reduced to D-mannonate by D-mannonate oxidoreductase. D-mannonate dehydratase dehydrated to yield 2-dehydro-3-deoxy-D-gluconate. At this point, a common enzyme, 2-keto-3-deoxygluconokinase, phosphorylates 2-dehydro-3-deoxy-D-gluconate to yield 2-dehydro-3-deoxy-D-gluconate-6-phosphate. This product is then process by KHG/KDPG aldolase which in turn produces D-Glyceraldehyde 3-phosphate and Pyruvic Acid which then go into their respective sub pathways: glycolysis and pyruvate dehydrogenase. The pathway can also start from 3 other points: a hydrogen ion symporter (gluconate/fructuronate transporter GntP) of D-fructuronate, a hydrogen ion symporter (Hexuronate transporter) of aldehydo-D-galacturonate that spontaneously turns into D-tagaturonate. This compound can also be obtained by the reaction of aldehydo-L-galactonate with a NAD dependent l-galactonate oxidoreductase resulting in the release of NADH, hydrogen ion. Tagaturonate then undergoes an NADH-dependent reduction to D-altronate through an altronate oxidoreductase. D-altronate undergoes dehydration to yield 2-dehydro-3-deoxy-D-gluconate, the third and last point where the reaction can start from a hydrogen symporter of a 2-dehydro-3-deoy-D-gluconate.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: January 21, 2025 at 16:08

Last Updated: January 21, 2025 at 16:08

PW685407

Pw685407 View Pathway
metabolic

Hexuronide and Hexuronate Degradation

Proteus penneri ATCC 35198
Beta-D-glucuronosides, D-glucuronate and D-fructuronate can be used as a source of carbon for E.coli. They are imported into E.coli's periplasmic space by membrane-associated protein (UidC/gusC), and are further imported into cytoplasm by hydrogen symporter. Beta-glucuronides undergoes hydrolysis by beta-D-glucuronidase to form D-glucuronate. D-glucuronate is isomerized by D-glucuronate isomerase to form D-fructuronate. D-fructuronate is further reduced to D-mannonate by D-mannonate oxidoreductase. D-mannonate dehydratase dehydrated to yield 2-dehydro-3-deoxy-D-gluconate. At this point, a common enzyme, 2-keto-3-deoxygluconokinase, phosphorylates 2-dehydro-3-deoxy-D-gluconate to yield 2-dehydro-3-deoxy-D-gluconate-6-phosphate. This product is then process by KHG/KDPG aldolase which in turn produces D-Glyceraldehyde 3-phosphate and Pyruvic Acid which then go into their respective sub pathways: glycolysis and pyruvate dehydrogenase. The pathway can also start from 3 other points: a hydrogen ion symporter (gluconate/fructuronate transporter GntP) of D-fructuronate, a hydrogen ion symporter (Hexuronate transporter) of aldehydo-D-galacturonate that spontaneously turns into D-tagaturonate. This compound can also be obtained by the reaction of aldehydo-L-galactonate with a NAD dependent l-galactonate oxidoreductase resulting in the release of NADH, hydrogen ion. Tagaturonate then undergoes an NADH-dependent reduction to D-altronate through an altronate oxidoreductase. D-altronate undergoes dehydration to yield 2-dehydro-3-deoxy-D-gluconate, the third and last point where the reaction can start from a hydrogen symporter of a 2-dehydro-3-deoy-D-gluconate.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: January 16, 2025 at 06:15

Last Updated: January 16, 2025 at 06:15

PW455209

Pw455209 View Pathway
metabolic

Hexuronide and Hexuronate Degradation

Morganella morganii subsp. morganii KT
Beta-D-glucuronosides, D-glucuronate and D-fructuronate can be used as a source of carbon for E.coli. They are imported into E.coli's periplasmic space by membrane-associated protein (UidC/gusC), and are further imported into cytoplasm by hydrogen symporter. Beta-glucuronides undergoes hydrolysis by beta-D-glucuronidase to form D-glucuronate. D-glucuronate is isomerized by D-glucuronate isomerase to form D-fructuronate. D-fructuronate is further reduced to D-mannonate by D-mannonate oxidoreductase. D-mannonate dehydratase dehydrated to yield 2-dehydro-3-deoxy-D-gluconate. At this point, a common enzyme, 2-keto-3-deoxygluconokinase, phosphorylates 2-dehydro-3-deoxy-D-gluconate to yield 2-dehydro-3-deoxy-D-gluconate-6-phosphate. This product is then process by KHG/KDPG aldolase which in turn produces D-Glyceraldehyde 3-phosphate and Pyruvic Acid which then go into their respective sub pathways: glycolysis and pyruvate dehydrogenase. The pathway can also start from 3 other points: a hydrogen ion symporter (gluconate/fructuronate transporter GntP) of D-fructuronate, a hydrogen ion symporter (Hexuronate transporter) of aldehydo-D-galacturonate that spontaneously turns into D-tagaturonate. This compound can also be obtained by the reaction of aldehydo-L-galactonate with a NAD dependent l-galactonate oxidoreductase resulting in the release of NADH, hydrogen ion. Tagaturonate then undergoes an NADH-dependent reduction to D-altronate through an altronate oxidoreductase. D-altronate undergoes dehydration to yield 2-dehydro-3-deoxy-D-gluconate, the third and last point where the reaction can start from a hydrogen symporter of a 2-dehydro-3-deoy-D-gluconate.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: January 16, 2025 at 05:26

Last Updated: January 16, 2025 at 05:26

PW471104

Pw471104 View Pathway
metabolic

Hexuronide and Hexuronate Degradation

Acetomicrobium hydrogeniformans
Beta-D-glucuronosides, D-glucuronate and D-fructuronate can be used as a source of carbon for E.coli. They are imported into E.coli's periplasmic space by membrane-associated protein (UidC/gusC), and are further imported into cytoplasm by hydrogen symporter. Beta-glucuronides undergoes hydrolysis by beta-D-glucuronidase to form D-glucuronate. D-glucuronate is isomerized by D-glucuronate isomerase to form D-fructuronate. D-fructuronate is further reduced to D-mannonate by D-mannonate oxidoreductase. D-mannonate dehydratase dehydrated to yield 2-dehydro-3-deoxy-D-gluconate. At this point, a common enzyme, 2-keto-3-deoxygluconokinase, phosphorylates 2-dehydro-3-deoxy-D-gluconate to yield 2-dehydro-3-deoxy-D-gluconate-6-phosphate. This product is then process by KHG/KDPG aldolase which in turn produces D-Glyceraldehyde 3-phosphate and Pyruvic Acid which then go into their respective sub pathways: glycolysis and pyruvate dehydrogenase. The pathway can also start from 3 other points: a hydrogen ion symporter (gluconate/fructuronate transporter GntP) of D-fructuronate, a hydrogen ion symporter (Hexuronate transporter) of aldehydo-D-galacturonate that spontaneously turns into D-tagaturonate. This compound can also be obtained by the reaction of aldehydo-L-galactonate with a NAD dependent l-galactonate oxidoreductase resulting in the release of NADH, hydrogen ion. Tagaturonate then undergoes an NADH-dependent reduction to D-altronate through an altronate oxidoreductase. D-altronate undergoes dehydration to yield 2-dehydro-3-deoxy-D-gluconate, the third and last point where the reaction can start from a hydrogen symporter of a 2-dehydro-3-deoy-D-gluconate.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: January 23, 2025 at 04:33

Last Updated: January 23, 2025 at 04:33

PW685419

Pw685419 View Pathway
metabolic

Hexuronide and Hexuronate Degradation

Halococcus morrhuae DSM 1307
Beta-D-glucuronosides, D-glucuronate and D-fructuronate can be used as a source of carbon for E.coli. They are imported into E.coli's periplasmic space by membrane-associated protein (UidC/gusC), and are further imported into cytoplasm by hydrogen symporter. Beta-glucuronides undergoes hydrolysis by beta-D-glucuronidase to form D-glucuronate. D-glucuronate is isomerized by D-glucuronate isomerase to form D-fructuronate. D-fructuronate is further reduced to D-mannonate by D-mannonate oxidoreductase. D-mannonate dehydratase dehydrated to yield 2-dehydro-3-deoxy-D-gluconate. At this point, a common enzyme, 2-keto-3-deoxygluconokinase, phosphorylates 2-dehydro-3-deoxy-D-gluconate to yield 2-dehydro-3-deoxy-D-gluconate-6-phosphate. This product is then process by KHG/KDPG aldolase which in turn produces D-Glyceraldehyde 3-phosphate and Pyruvic Acid which then go into their respective sub pathways: glycolysis and pyruvate dehydrogenase. The pathway can also start from 3 other points: a hydrogen ion symporter (gluconate/fructuronate transporter GntP) of D-fructuronate, a hydrogen ion symporter (Hexuronate transporter) of aldehydo-D-galacturonate that spontaneously turns into D-tagaturonate. This compound can also be obtained by the reaction of aldehydo-L-galactonate with a NAD dependent l-galactonate oxidoreductase resulting in the release of NADH, hydrogen ion. Tagaturonate then undergoes an NADH-dependent reduction to D-altronate through an altronate oxidoreductase. D-altronate undergoes dehydration to yield 2-dehydro-3-deoxy-D-gluconate, the third and last point where the reaction can start from a hydrogen symporter of a 2-dehydro-3-deoy-D-gluconate.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: January 17, 2025 at 10:03

Last Updated: January 17, 2025 at 10:03

PW144595

Pw144595 View Pathway
drug action

Hexylcaine Drug Metabolism Action Pathway

Homo sapiens
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Ray Kruger

Created On: October 07, 2023 at 13:58

Last Updated: October 07, 2023 at 13:58

PW146321

Pw146321 View Pathway
drug action

Hexylresorcinol Drug Metabolism Action Pathway

Homo sapiens
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Ray Kruger

Created On: October 07, 2023 at 17:56

Last Updated: October 07, 2023 at 17:56