Phosphoenolpyruvate phosphotransferase system

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Hamilton, I. R. and Lo, G. C. 1978. Co-induction of 0-galactosidase and the lactose-phosphoenolpyruvate phosphotransferase system in Streptococcus salivarius and Streptococcus mutans. J. Bacteriol 136, 900-908. 

Kundig, W. 1976. The bacterial phosphoenolpyruvate phosphotransferase system. In The Enzymes of Microbiological Membranes. A. Martonasi (Editor). Plenum Press, New York, pp. 31-53. 

Vanderpool CK, Gottesman S. Involvement of a novel transcriptional activator and small RNA in post-transcriptional regulation of the glucose phosphoenolpyruvate phosphotransferase system. Mol. Microbiol. 2004 54(4) 1076-1089. 

U., Pfliiger-Grau, K., and de Lorenzo, V. (2012) Regulatory tasks of the phosphoenolpyruvate-phosphotransferase system of Pseudomonas putida in central carbon metabolism. mBio, 3 (2), e00028-12. 

The Enzymes II (E-IIs) of the phosphoenolpyruvate (P-enolpyruvate)-dependent phosphotransferase system (PTS) are carbohydrate transporters found only in prokaryotes. They not only transport hexoses and hexitols, but also pentitols and disaccharides. The PTS substrates are listed in Table I. The abbreviations used (as superscripts) throughout the text for these substrates are as follows Bgl, jS-gluco-side Cel, cellobiose Fru, fructose Glc, glucose Gut, glucitol Lac, lactose Man, mannose Mtl, mannitol Nag, iV-acetylglucosamine Scr, sucrose Sor, sorbose Xtl, xylitol. 

The bacterial phosphoenolpyruvate (PEP)-dependent carbohydrate phosphotransferase systems (PTS) are characterised by their unique mechanism of group translocation. The transported solute is chemically modified (i.e. phos-phorylated) during the process (for comprehensive reviews see [151,152] and... 

Hardesty, C., Ferran, C. and DiRienzo, J. M. (1991). Plasmid-mediated sucrose metabolism in Escherichia colt characterization of scrY, the structural gene for a phosphoenolpyruvate-dependent sucrose phosphotransferase system outer membrane porin, J. Bacteriol, 173, 449-456. 

Siebold, C., Flukiger, K., Beutler, R. and Emi, B. (2001). Carbohydrate transporters of the bacterial phosphoenolpyruvate sugar phosphotransferase system (PTS), FEBS Lett. 504, 104-111. 

S phosphoenolpyruvate -h glycerone <1> (<1> overall reaction of phosphotransferase system, involved in glycerol dissimilation of Escherichia coli... 

Waygood, E.B. Enzyme I of the phosphoenolpyruvate sugar phosphotransferase system has two sites of phosphorylation per dimer. Biochemistry, 25, 4085-4090 (1986)... 

Hoving, H. Koning, J.H. Robillard, G.T. Escherichia coli phosphoenolpyruvate-dependent phosphotransferase system role of divalent metals in the dimerization and phosphorylation of enzyme I. Biochemistry, 21, 3128-3136 (1982)... 

Saier, M.H. Schmidt, M.R. Lin, P. Phosphoryl exchange reaction catalyzed by enzyme I of the bacterial phosphoenolpyruvate sugar phosphotransferase system. Kinetic characterization. J. Biol. Chem., 255, 8579-8584 (1980)... 

Robillard, G.T. Dooijewaard, G. Lolkema, J. Escherichia coli phosphoenolpyruvate dependent phosphotransferase system. Complete purification of enzyme I by hydrophobic interaction chromatography. Biochemistry, 18, 2984-2989 (1979)... 

Jaffor Ullah, A.H. Cirillo, V.P. Mycoplasma phosphoenolpyruvate-depen-dent sugar phosphotransferase system purification and characterization of enzyme I. J. Bacteriol., 131, 988-996 (1977)... 

Postma, P.W. Roseman, S. The bacterial phosphoenolpyruvate sugar phosphotransferase system. Biochim. Biophys. Acta, 457, 213-257 (1976)... 

De Reuse, H. Danchin, A. The ptsH, ptsI, and err genes of the Escherichia coli phosphoenolpyruvate-dependent phosphotransferase system a complex operon with several modes of transcription. J. Bacteriol., 170, 3827-3837 (1988)... 

Chauvin, F. Fomenkov, A. Johnson, C.R. Roseman, S. The N-terminal domain of Escherichia coli enzyme I of the phosphoenolpyruvate/glycose phosphotransferase system molecular cloning and characterization. Proc. Natl. Acad. Sci.USA, 93, 7028-7031 (1996)... 

Ginsburg, A. Szczepanowski, R.H. Ruvinov, S.B. Nosworthy, N.J. Sondej, M. Umland, T.C. Peterkofsky, A. Conformational stability changes of the amino terminal domain of enzyme I of the Escherichia coli phosphoenolpyruvate sugar phosphotransferase system produced by substituting alanine or glutamate for the active-site histidine 189 implications for phosphorylation effects. Protein Sci., 9, 1085-1094 (2000)... 

Huebner, G. Koenig, S. Koch, M.H.J. Hengstenberg, W. Influence of Phosphoenolpyruvate and Magnesium Ions on the Quaternary Structure of Enzyme I of the Phosphotransferase System from Gram-Positive Bacteria. Biochemistry, 34, 15700-15703 (1995)... 

Kok, M. Bron, G. Erni, B. Mukhija, S. Effect of enzyme I of the bacterial phosphoenolpyruvate sugar phosphotransferase system (PTS) on virulence in a murine model. Microbiology, 149, 2645-2652 (2003)... 

Napper, S. Delbaere, L.T.J. Waygood, E.B. The aspartyl replacement of the active site histidine in histidine-containing protein, HPr, of the Escherichia coli phosphoenolpyruvate sugar phosphotransferase system can accept and donate a phosphoryl group. Spontaneous dephosphorylation of acyl-phosphate autocatalyzes an internal cyclization. J. Biol. Chem., 274, 21776-21782 (1999)... 

Seok, Y.-J. Lee, B.R. Gazdar, C. Svenson, I. Yadla, N. Peterkofsky, A. Importance of the region around glycine-338 for the activity of enzyme I of the Escherichia coli phosphoenolpyruvate sugar phosphotransferase system. Biochemistry, 35, 236-242 (1996)... 

Chassy, B. M. and Thompson, J. 1983. Regulation of lactose-phosphoenolpyruvate-dependent phosphotransferase system and 0-D-phosphogalactoside galactohydrol-ase activities in Lactobacillus casei. J. Bacteriol 154, 1195-1203. 

Park, Y. H. and McKay, L. L. 1982. Distinct galactose phosphoenolpyruvate-dependent phosphotransferase system in Streptococcus lactis. J. Bacterial 149, 420-425. 

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