| PathWhiz ID | Pathway | Meta Data |
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PW353331
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Trehalose Degradation I (Low Osmolarity)Neisseria macacae ATCC 33926
In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low, then the source of trehalose can be only obtained from external via transportation with trehalose PTS permease. However, sugar can be degraded with both low or high osmolarity in E.coli. Glucokinase can phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.
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Creator: Julia Wakoli Created On: November 08, 2024 at 20:18 Last Updated: November 08, 2024 at 20:18 |
PW353261
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Trehalose Degradation I (Low Osmolarity)Fusobacterium varium ATCC 27725
In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low, then the source of trehalose can be only obtained from external via transportation with trehalose PTS permease. However, sugar can be degraded with both low or high osmolarity in E.coli. Glucokinase can phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.
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Creator: Julia Wakoli Created On: November 08, 2024 at 19:29 Last Updated: November 08, 2024 at 19:29 |
PW353413
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Trehalose Degradation I (Low Osmolarity)Tatumella ptyseos ATCC 33301
In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low, then the source of trehalose can be only obtained from external via transportation with trehalose PTS permease. However, sugar can be degraded with both low or high osmolarity in E.coli. Glucokinase can phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.
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Creator: Julia Wakoli Created On: November 08, 2024 at 21:50 Last Updated: November 08, 2024 at 21:50 |
PW353335
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Trehalose Degradation I (Low Osmolarity)Neisseria subflava NJ9703
In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low, then the source of trehalose can be only obtained from external via transportation with trehalose PTS permease. However, sugar can be degraded with both low or high osmolarity in E.coli. Glucokinase can phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.
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Creator: Julia Wakoli Created On: November 08, 2024 at 20:23 Last Updated: November 08, 2024 at 20:23 |
PW353309
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Trehalose Degradation I (Low Osmolarity)Lautropia mirabilis ATCC 51599
In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low, then the source of trehalose can be only obtained from external via transportation with trehalose PTS permease. However, sugar can be degraded with both low or high osmolarity in E.coli. Glucokinase can phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.
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Creator: Julia Wakoli Created On: November 08, 2024 at 19:51 Last Updated: November 08, 2024 at 19:51 |
PW354162
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Trehalose Degradation I (Low Osmolarity)Pseudoflavonifractor capillosus ATCC 29799
In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low, then the source of trehalose can be only obtained from external via transportation with trehalose PTS permease. However, sugar can be degraded with both low or high osmolarity in E.coli. Glucokinase can phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.
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Creator: Julia Wakoli Created On: November 09, 2024 at 15:33 Last Updated: November 09, 2024 at 15:33 |
PW353385
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Trehalose Degradation I (Low Osmolarity)Citrobacter amalonaticus Y19
In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low, then the source of trehalose can be only obtained from external via transportation with trehalose PTS permease. However, sugar can be degraded with both low or high osmolarity in E.coli. Glucokinase can phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.
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Creator: Julia Wakoli Created On: November 08, 2024 at 21:21 Last Updated: November 08, 2024 at 21:21 |
PW002097
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Trehalose Degradation I (Low Osmolarity)Escherichia coli
In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low, then the source of trehalose can be only obtained from external via transportation with trehalose PTS permease. However, sugar can be degraded with both low or high osmolarity in E.coli. Glucokinase can phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.
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Creator: Ana Marcu Created On: October 13, 2015 at 17:48 Last Updated: October 13, 2015 at 17:48 |
PW123566
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Trehalose Degradation I (Low Osmolarity)Pseudomonas aeruginosa
In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low, then the source of trehalose can be only obtained from external via transportation with trehalose PTS permease. However, sugar can be degraded with both low or high osmolarity in E.coli. Glucokinase can phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.
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Creator: Ana Marcu Created On: August 12, 2019 at 22:32 Last Updated: August 12, 2019 at 22:32 |
PW353500
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Trehalose Degradation I (Low Osmolarity)Providencia stuartii ATCC 25827
In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low, then the source of trehalose can be only obtained from external via transportation with trehalose PTS permease. However, sugar can be degraded with both low or high osmolarity in E.coli. Glucokinase can phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.
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Creator: Julia Wakoli Created On: November 08, 2024 at 22:15 Last Updated: November 08, 2024 at 22:15 |