EC Number |
General Information |
Reference |
---|
2.7.3.9 | evolution |
the phosphoenolpyruvate phosphotransferase system (PTS) is ubiquitous in eubacteria and absent from eukaryotes |
738469 |
2.7.3.9 | malfunction |
a deletion mutant exhibits increased surface accumulation compared with wild type Vibrio cholerae |
722522 |
2.7.3.9 | malfunction |
deficiency of enzyme I, EI, of the phosphoenolpyruvate phosphotransferase system in bacterial mutants lead to severe growth defects |
738469 |
2.7.3.9 | malfunction |
enzyme-deficient mutants with diminished intracellular survival show down-regulation of the PhoPQ regulon and Salmonella pathogenicity island and flagella genes |
-, 761847 |
2.7.3.9 | metabolism |
all phosphotransferase system proteins inclusive enzyme I required to transport glucose in Escherichia coli regulate a metabolic function |
722524 |
2.7.3.9 | metabolism |
enzyme expression enables cells to grow with maltose, GlcNAc, sucrose, and trehalose |
-, 761389 |
2.7.3.9 | metabolism |
the enzyme I gene is involved in fructose metabolism |
-, 722543 |
2.7.3.9 | metabolism |
the phosphoenolpyruvate phosphotransferase system consists of two phosphoryl carriers, enzyme I (EI) and the histidine-containing phosphoryl carrier protein (HPr), and several PTS transporters, catalyzing the concomitant uptake and phosphorylation of several carbohydrates |
738469 |
2.7.3.9 | metabolism |
the phosphoenolpyruvate-dependent carbohydrate:phosphotransferase system constitutes a complex transport and sensory system and consists of two cytoplasmic energy-coupling proteins, Enzyme I (EI) and HPr, and one of more than 20 different carbohydrate-specific membrane proteins named Enzyme II (EII), which catalyze the uptake and concomitant phosphorylation of numerous carbohydrates |
722181 |
2.7.3.9 | physiological function |
phosphorylation of histidine protein and FPr protein by enzyme I represses Vibrio cholerae biofilm formation in minimal medium supplemented with glucose or pyruvate |
722522 |