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https://bar.utoronto.ca/thalemine/service/ is incorrect| Description | The phosphoenolpyruvate-dependent sugar phosphotransferase system (PTS) [ , ] is a major carbohydrate transport system in bacteria. The PTS catalyses the phosphorylation of incoming sugar substrates and coupled with translocation across the cell membrane, makes the PTS a link between the uptake and metabolism of sugars.The general mechanism of the PTS is the following: a phosphoryl group from phosphoenolpyruvate (PEP) is transferred via a signal transduction pathway, to enzyme I (EI) which in turn transfers it to a phosphoryl carrier, the histidine protein (HPr). Phospho-HPr then transfers the phosphoryl group to a sugar-specific permease, a membrane-bound complex known as enzyme 2 (EII), which transports the sugar to the cell. EII consists of at least three structurally distinct domains IIA, IIB and IIC [ ]. These can either be fused together in a single polypeptide chain or exist as two or three interactive chains, formerly called enzymes II (EII) and III (EIII).Bacterial PTS transporters transport and concomitantly phosphorylate their sugar substrates, and typically consist of multiple subunits or protein domains. The Mannose (Man) family is unique in several respects among PTS permease families.It is the only PTS family in which members possess a IID protein.It is the only PTS family in which the IIB constituent is phosphorylated on a histidyl rather than a cysteyl residue.Its permease members exhibit broad specificity for a range of sugars, rather than being specific for just one or a few sugars.The mannose permease of Escherichia coli, for example, can transport and phosphorylate glucose, mannose, fructose, glucosamine,N-acetylglucosamine, and other sugars. Other members of this can transport sorbose, fructose and N-acetylglucosamine. | Name | Phosphotransferase system, mannose/fructose/sorbose family IID component |
| Short Name | PTS_IID_man | Type | Family |
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