PathWhiz ID | Pathway | Meta Data |
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PW337731View Pathway |
Xylose Degradation IAlistipes indistinctus YIT 12060
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 20:05 Last Updated: October 24, 2024 at 20:05 |
PW337774View Pathway |
Xylose Degradation ILautropia mirabilis ATCC 51599
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 09:29 Last Updated: October 25, 2024 at 09:29 |
PW337813View Pathway |
Xylose Degradation ICitrobacter amalonaticus Y19
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 14:47 Last Updated: October 25, 2024 at 14:47 |
PW337849View Pathway |
Xylose Degradation IAcinetobacter johnsonii SH046
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 15:27 Last Updated: October 25, 2024 at 15:27 |
PW337837View Pathway |
Xylose Degradation IProvidencia rustigianii DSM 4541
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 15:14 Last Updated: October 25, 2024 at 15:14 |
PW337868View Pathway |
Xylose Degradation IPaenibacillus lactis 154
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 15:44 Last Updated: October 25, 2024 at 15:44 |
PW354831View Pathway |
Xylose Degradation IAcetomicrobium hydrogeniformans
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 21:56 Last Updated: November 09, 2024 at 21:56 |
PW354590View Pathway |
Xylose Degradation IEscherichia coli IAI39
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 |
PW354588View Pathway |
Xylose Degradation IEscherichia coli S88
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 20:56 Last Updated: November 09, 2024 at 20:56 |
PW354583View Pathway |
Xylose Degradation IEscherichia coli O157:H7 str. EC4115
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 |