BioModels Database logo

BioModels Database


Phosphotransferase system (PTS) - Pseudomonas mendocina (strain ymp)


Model information
Identifier: BMID000000017121
Format: SBML L3 V1 (Layout, Qualitative Models)
Project: path2models
Categories: non-metabolic
Submission: 17 May 2012 17:52:59 UTC
Last modified: 08 Dec 2012 01:15:44 UTC
Published: 20 May 2012 00:49:21 UTC
isDescribedBy phosphoenolpyruvate-dependent sugar phosphotransferase system Gene Ontology
occursIn Pseudomonas mendocina (strain ymp) Taxonomy
isDerivedFrom Phosphotransferase system (PTS) KEGG Pathway
Model of “Phosphotransferase system (PTS)” in “Pseudomonas mendocina ymp”
The phosphoenolpyruvate (PEP)-dependent phosphotransferase system (PTS) is a major mechanism used by bacteria for uptake of carbohydrates, particularly hexoses, hexitols, and disaccharides, where the source of energy is from PEP. The PTS consists of two general components, enzyme I (EI) and histidine phosphocarrier protein (HPr), and of membrane-bound sugar specific permeases (enzymes II). Each enzyme II (EII) complex consists of one or two hydrophobic integral membrane domains (domains C and D) and two hydrophilic domains (domains A and B). EII complexes may exist as distinct proteins or as a single multidomain protein. The PTS catalyzes the uptake of carbohydrates and their conversion into their respective phosphoesters during transport. There are four successive phosphoryl transfers in the PTS. Initial autophosphorylation of EI, using PEP as a substrate, is followed by transfer of the phosphoryl group from EI to HPr. EIIA catalyzes the self-phosphoryl transfer from HPr after which the phosphoryl group is transferred to histidine or cysteine residues of EIIB. The sugar is transported through the membrane-bound EIIC and is phosphorylated by the appropriate sugar-specific EIIB.

Graphical representation of 'Phosphotransferase system (PTS) (Pseudomonas mendocina ymp)'
(PNG image hosted by the Kyoto Encyclopedia of Genes and Genomes, KEGG).
This model has been automatically generated by KEGGtranslator V2.3.0 (KEGGtranslator: visualizing and converting the KEGG PATHWAY database to various formats. Wrzodek C, Dräger A, Zell A. Bioinformatics . 2011, 27 :2314-2315) using information coming from the KEGG PATHWAY Database ( original pathway ).
This model has been produced by the path2models project, it is currently hosted on BioModels Database and identified by: BMID000000017121 .
To the extent possible under law, all copyright and related or neighbouring rights to this encoded model have been dedicated to the public domain worldwide. Please refer to CC0 Public Domain Dedication for more information.