2.7.1.202: protein-Npi-phosphohistidine-D-fructose phosphotransferase
This is an abbreviated version!
For detailed information about protein-Npi-phosphohistidine-D-fructose phosphotransferase, go to the full flat file.
Word Map on EC 2.7.1.202
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2.7.1.202
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hpr
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phosphoenolpyruvate-dependent
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phosphoenolpyruvate:sugar
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fructose-1-phosphate
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fructose-inducible
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1-phosphofructokinase
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fructose-grown
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pep-dependent
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hpr-like
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phosphoenolpyruvate:fructose
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histidine-containing
- 2.7.1.202
- hpr
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phosphoenolpyruvate-dependent
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phosphoenolpyruvate:sugar
- fructose-1-phosphate
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fructose-inducible
- 1-phosphofructokinase
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fructose-grown
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pep-dependent
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hpr-like
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phosphoenolpyruvate:fructose
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histidine-containing
Reaction
Synonyms
EC 2.7.1.69, EIIB'BCFru, EIIFru, Enzyme IIAFrU, enzyme IIfru, enzyme IIfructose, F-PTS, fruA, FruB'BC, FruC, fructose carrier, fructose EII, fructose Enzyme II, fructose permease, fructose PTS permease, fructose-specific enzyme II, fructose-specific enzyme II permease, fructose-specific enzyme IIC, fructose-specific permease, fructose-specific phosphotransferase system, fructose-specific PTS, FruD, fruI, frwC, IIBLev, IICBAFru, IIFru, PTS IIAFru, PTS IIBFru, PTS IICFru, ptsF, ruAB
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General Information
General Information on EC 2.7.1.202 - protein-Npi-phosphohistidine-D-fructose phosphotransferase
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malfunction
metabolism
physiological function
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enzyme gene frwC deletion can enhance biofilm formation and capsular polysaccharide biosynthesis but decreases the growth rate and lethality in mice
malfunction
Klebsiella pneumoniae NTUH-2044
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enzyme gene frwC deletion can enhance biofilm formation and capsular polysaccharide biosynthesis but decreases the growth rate and lethality in mice
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the inducible fructose permease is also responsible for xylitol transport
metabolism
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the utilization of fructose occurs via Enzyme IIfru and FPr protein at fructose concentrations higher than 2.5 mM
metabolism
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the inducible fructose permease is also responsible for xylitol transport
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Q8DWE7; Q8DWE6
FruCD/inducible fructose permeaseFruI double mutants have roughly 30% of the capacity of the wild-type strain to transport fructose via the phosphoenolpyruvate-dependent sugar:phosphotransferase system
physiological function
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frwC gene expression is controlled by cyclic AMP receptor protein directly and that such regulation contributes to bacterial growth, capsular polysaccharide synthesis, and the virulence of the cyclic AMP receptor protein-deficient strain
physiological function
Klebsiella pneumoniae NTUH-2044
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frwC gene expression is controlled by cyclic AMP receptor protein directly and that such regulation contributes to bacterial growth, capsular polysaccharide synthesis, and the virulence of the cyclic AMP receptor protein-deficient strain
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physiological function
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FruCD/inducible fructose permeaseFruI double mutants have roughly 30% of the capacity of the wild-type strain to transport fructose via the phosphoenolpyruvate-dependent sugar:phosphotransferase system
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