PathWhiz ID | Pathway | Meta Data |
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PW354581View Pathway |
Xylose Degradation IEscherichia coli HS
Escherichia coli can utilize D-xylose as the sole source of carbon and energy for the cell. A low-affinity proton motive force or a high-affinity ATP-driven (ABC) transport system brings unphosphorylated D-xylose into the cell. Following entry, D-xylose is converted to D-xylulose by an isomerase and then converted to the pentose phosphate pathway intermediate, D-xylulose 5-phosphate via a kinase. D-xylulose 5-phosphate can then enter pathways of metabolism to meet the cells needs.
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Creator: Julia Wakoli Created On: November 09, 2024 at 20:54 Last Updated: November 09, 2024 at 20:54 |
PW337830View Pathway |
Xylose Degradation IEdwardsiella tarda ATCC 23685
Escherichia coli can utilize D-xylose as the sole source of carbon and energy for the cell. A low-affinity proton motive force or a high-affinity ATP-driven (ABC) transport system brings unphosphorylated D-xylose into the cell. Following entry, D-xylose is converted to D-xylulose by an isomerase and then converted to the pentose phosphate pathway intermediate, D-xylulose 5-phosphate via a kinase. D-xylulose 5-phosphate can then enter pathways of metabolism to meet the cells needs.
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Creator: Julia Wakoli Created On: October 25, 2024 at 15:04 Last Updated: October 25, 2024 at 15:04 |
PW337885View Pathway |
Xylose Degradation IMitsuokella multacida DSM 20544
Escherichia coli can utilize D-xylose as the sole source of carbon and energy for the cell. A low-affinity proton motive force or a high-affinity ATP-driven (ABC) transport system brings unphosphorylated D-xylose into the cell. Following entry, D-xylose is converted to D-xylulose by an isomerase and then converted to the pentose phosphate pathway intermediate, D-xylulose 5-phosphate via a kinase. D-xylulose 5-phosphate can then enter pathways of metabolism to meet the cells needs.
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Creator: Julia Wakoli Created On: October 25, 2024 at 16:01 Last Updated: October 25, 2024 at 16:01 |
PW337668View Pathway |
Xylose Degradation IBacteroides finegoldii DSM 17565
Escherichia coli can utilize D-xylose as the sole source of carbon and energy for the cell. A low-affinity proton motive force or a high-affinity ATP-driven (ABC) transport system brings unphosphorylated D-xylose into the cell. Following entry, D-xylose is converted to D-xylulose by an isomerase and then converted to the pentose phosphate pathway intermediate, D-xylulose 5-phosphate via a kinase. D-xylulose 5-phosphate can then enter pathways of metabolism to meet the cells needs.
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Creator: Julia Wakoli Created On: October 24, 2024 at 18:58 Last Updated: October 24, 2024 at 18:58 |
PW337815View Pathway |
Xylose Degradation ICitrobacter youngae ATCC 29220
Escherichia coli can utilize D-xylose as the sole source of carbon and energy for the cell. A low-affinity proton motive force or a high-affinity ATP-driven (ABC) transport system brings unphosphorylated D-xylose into the cell. Following entry, D-xylose is converted to D-xylulose by an isomerase and then converted to the pentose phosphate pathway intermediate, D-xylulose 5-phosphate via a kinase. D-xylulose 5-phosphate can then enter pathways of metabolism to meet the cells needs.
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Creator: Julia Wakoli Created On: October 25, 2024 at 14:48 Last Updated: October 25, 2024 at 14:48 |
PW337827View Pathway |
Xylose Degradation ITrabulsiella guamensis ATCC 49490
Escherichia coli can utilize D-xylose as the sole source of carbon and energy for the cell. A low-affinity proton motive force or a high-affinity ATP-driven (ABC) transport system brings unphosphorylated D-xylose into the cell. Following entry, D-xylose is converted to D-xylulose by an isomerase and then converted to the pentose phosphate pathway intermediate, D-xylulose 5-phosphate via a kinase. D-xylulose 5-phosphate can then enter pathways of metabolism to meet the cells needs.
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Creator: Julia Wakoli Created On: October 25, 2024 at 15:00 Last Updated: October 25, 2024 at 15:00 |
PW337891View Pathway |
Xylose Degradation IHalococcus morrhuae DSM 1307
Escherichia coli can utilize D-xylose as the sole source of carbon and energy for the cell. A low-affinity proton motive force or a high-affinity ATP-driven (ABC) transport system brings unphosphorylated D-xylose into the cell. Following entry, D-xylose is converted to D-xylulose by an isomerase and then converted to the pentose phosphate pathway intermediate, D-xylulose 5-phosphate via a kinase. D-xylulose 5-phosphate can then enter pathways of metabolism to meet the cells needs.
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Creator: Julia Wakoli Created On: October 25, 2024 at 16:09 Last Updated: October 25, 2024 at 16:09 |
PW354592View Pathway |
Xylose Degradation IEscherichia coli O103:H2 str. 12009
Escherichia coli can utilize D-xylose as the sole source of carbon and energy for the cell. A low-affinity proton motive force or a high-affinity ATP-driven (ABC) transport system brings unphosphorylated D-xylose into the cell. Following entry, D-xylose is converted to D-xylulose by an isomerase and then converted to the pentose phosphate pathway intermediate, D-xylulose 5-phosphate via a kinase. D-xylulose 5-phosphate can then enter pathways of metabolism to meet the cells needs.
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Creator: Julia Wakoli Created On: November 09, 2024 at 20:57 Last Updated: November 09, 2024 at 20:57 |
PW354585View Pathway |
Xylose Degradation IEscherichia coli UMN026
Escherichia coli can utilize D-xylose as the sole source of carbon and energy for the cell. A low-affinity proton motive force or a high-affinity ATP-driven (ABC) transport system brings unphosphorylated D-xylose into the cell. Following entry, D-xylose is converted to D-xylulose by an isomerase and then converted to the pentose phosphate pathway intermediate, D-xylulose 5-phosphate via a kinase. D-xylulose 5-phosphate can then enter pathways of metabolism to meet the cells needs.
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Creator: Julia Wakoli Created On: November 09, 2024 at 20:55 Last Updated: November 09, 2024 at 20:55 |
PW354580View Pathway |
Xylose Degradation IEscherichia coli E24377A
Escherichia coli can utilize D-xylose as the sole source of carbon and energy for the cell. A low-affinity proton motive force or a high-affinity ATP-driven (ABC) transport system brings unphosphorylated D-xylose into the cell. Following entry, D-xylose is converted to D-xylulose by an isomerase and then converted to the pentose phosphate pathway intermediate, D-xylulose 5-phosphate via a kinase. D-xylulose 5-phosphate can then enter pathways of metabolism to meet the cells needs.
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Creator: Julia Wakoli Created On: November 09, 2024 at 20:54 Last Updated: November 09, 2024 at 20:54 |