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PW002022

Pw002022 View Pathway
metabolic

D-Sorbitol Degradation II

Escherichia coli
E. coli K-12 can utilize six existing hexitols as source of carbon and energy. Hexitols can enter bacterial cell by specific phosphotransferase system, which is consisted of mannose permease IID component, mannose permease IIC component and PTS system mannose-specific EIIAB component. Sorbitol-6-phosphate will be converted to fructose 6-phosphate by sorbitol-6-phosphate dehydrogenase with cofactor NAD. Sorbitol-6-phosphate will be transformed into β-D-Fructose 6-phosphate spontaneously, which the later product will undergo glycolysis I.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Ana Marcu

Created On: September 24, 2015 at 15:32

Last Updated: September 24, 2015 at 15:32

PW347041

Pw347041 View Pathway
metabolic

D-Sorbitol Degradation II

Trabulsiella guamensis ATCC 49490
E. coli K-12 can utilize six existing hexitols as source of carbon and energy. Hexitols can enter bacterial cell by specific phosphotransferase system, which is consisted of mannose permease IID component, mannose permease IIC component and PTS system mannose-specific EIIAB component. Sorbitol-6-phosphate will be converted to fructose 6-phosphate by sorbitol-6-phosphate dehydrogenase with cofactor NAD. Sorbitol-6-phosphate will be transformed into β-D-Fructose 6-phosphate spontaneously, which the later product will undergo glycolysis I.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: November 04, 2024 at 10:49

Last Updated: November 04, 2024 at 10:49

PW346959

Pw346959 View Pathway
metabolic

D-Sorbitol Degradation II

Desulfovibrio piger ATCC 29098
E. coli K-12 can utilize six existing hexitols as source of carbon and energy. Hexitols can enter bacterial cell by specific phosphotransferase system, which is consisted of mannose permease IID component, mannose permease IIC component and PTS system mannose-specific EIIAB component. Sorbitol-6-phosphate will be converted to fructose 6-phosphate by sorbitol-6-phosphate dehydrogenase with cofactor NAD. Sorbitol-6-phosphate will be transformed into β-D-Fructose 6-phosphate spontaneously, which the later product will undergo glycolysis I.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: November 04, 2024 at 09:31

Last Updated: November 04, 2024 at 09:31

PW346947

Pw346947 View Pathway
metabolic

D-Sorbitol Degradation II

Neisseria subflava NJ9703
E. coli K-12 can utilize six existing hexitols as source of carbon and energy. Hexitols can enter bacterial cell by specific phosphotransferase system, which is consisted of mannose permease IID component, mannose permease IIC component and PTS system mannose-specific EIIAB component. Sorbitol-6-phosphate will be converted to fructose 6-phosphate by sorbitol-6-phosphate dehydrogenase with cofactor NAD. Sorbitol-6-phosphate will be transformed into β-D-Fructose 6-phosphate spontaneously, which the later product will undergo glycolysis I.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: November 04, 2024 at 09:19

Last Updated: November 04, 2024 at 09:19

PW346930

Pw346930 View Pathway
metabolic

D-Sorbitol Degradation II

Kingella oralis ATCC 51147
E. coli K-12 can utilize six existing hexitols as source of carbon and energy. Hexitols can enter bacterial cell by specific phosphotransferase system, which is consisted of mannose permease IID component, mannose permease IIC component and PTS system mannose-specific EIIAB component. Sorbitol-6-phosphate will be converted to fructose 6-phosphate by sorbitol-6-phosphate dehydrogenase with cofactor NAD. Sorbitol-6-phosphate will be transformed into β-D-Fructose 6-phosphate spontaneously, which the later product will undergo glycolysis I.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: November 04, 2024 at 09:01

Last Updated: November 04, 2024 at 09:01

PW360005

Pw360005 View Pathway
metabolic

D-Sorbitol Degradation II

Escherichia coli O55:H7 str. CB9615
E. coli K-12 can utilize six existing hexitols as source of carbon and energy. Hexitols can enter bacterial cell by specific phosphotransferase system, which is consisted of mannose permease IID component, mannose permease IIC component and PTS system mannose-specific EIIAB component. Sorbitol-6-phosphate will be converted to fructose 6-phosphate by sorbitol-6-phosphate dehydrogenase with cofactor NAD. Sorbitol-6-phosphate will be transformed into β-D-Fructose 6-phosphate spontaneously, which the later product will undergo glycolysis I.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: November 14, 2024 at 12:15

Last Updated: November 14, 2024 at 12:15

PW359988

Pw359988 View Pathway
metabolic

D-Sorbitol Degradation II

Escherichia coli APEC O1
E. coli K-12 can utilize six existing hexitols as source of carbon and energy. Hexitols can enter bacterial cell by specific phosphotransferase system, which is consisted of mannose permease IID component, mannose permease IIC component and PTS system mannose-specific EIIAB component. Sorbitol-6-phosphate will be converted to fructose 6-phosphate by sorbitol-6-phosphate dehydrogenase with cofactor NAD. Sorbitol-6-phosphate will be transformed into β-D-Fructose 6-phosphate spontaneously, which the later product will undergo glycolysis I.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: November 14, 2024 at 12:08

Last Updated: November 14, 2024 at 12:08

PW359990

Pw359990 View Pathway
metabolic

D-Sorbitol Degradation II

Escherichia coli E24377A
E. coli K-12 can utilize six existing hexitols as source of carbon and energy. Hexitols can enter bacterial cell by specific phosphotransferase system, which is consisted of mannose permease IID component, mannose permease IIC component and PTS system mannose-specific EIIAB component. Sorbitol-6-phosphate will be converted to fructose 6-phosphate by sorbitol-6-phosphate dehydrogenase with cofactor NAD. Sorbitol-6-phosphate will be transformed into β-D-Fructose 6-phosphate spontaneously, which the later product will undergo glycolysis I.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: November 14, 2024 at 12:09

Last Updated: November 14, 2024 at 12:09

PW359995

Pw359995 View Pathway
metabolic

D-Sorbitol Degradation II

Escherichia coli UMN026
E. coli K-12 can utilize six existing hexitols as source of carbon and energy. Hexitols can enter bacterial cell by specific phosphotransferase system, which is consisted of mannose permease IID component, mannose permease IIC component and PTS system mannose-specific EIIAB component. Sorbitol-6-phosphate will be converted to fructose 6-phosphate by sorbitol-6-phosphate dehydrogenase with cofactor NAD. Sorbitol-6-phosphate will be transformed into β-D-Fructose 6-phosphate spontaneously, which the later product will undergo glycolysis I.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: November 14, 2024 at 12:11

Last Updated: November 14, 2024 at 12:11

PW360000

Pw360000 View Pathway
metabolic

D-Sorbitol Degradation II

Escherichia coli IAI39
E. coli K-12 can utilize six existing hexitols as source of carbon and energy. Hexitols can enter bacterial cell by specific phosphotransferase system, which is consisted of mannose permease IID component, mannose permease IIC component and PTS system mannose-specific EIIAB component. Sorbitol-6-phosphate will be converted to fructose 6-phosphate by sorbitol-6-phosphate dehydrogenase with cofactor NAD. Sorbitol-6-phosphate will be transformed into β-D-Fructose 6-phosphate spontaneously, which the later product will undergo glycolysis I.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Julia Wakoli

Created On: November 14, 2024 at 12:13

Last Updated: November 14, 2024 at 12:13