Putative thioredoxin protein.

Probable non ribosomal peptide synthetase protein.

Putative thioredoxin protein.

Probable low molecular weight protein-tyrosine-phosphatase epsp; May be involved in assembly or function of the EPS I polymerization/export complex and/or the EpsB ATPase. Alternatively it may function in the removal of the terminal phosphate from C55- isoprenyl pyrophosphate in order to recycle the C55-isoprenyl phosphate lipid carrier used in the synthesis of polysaccharide repeat units (By similarity).

Probable non ribosomal peptide synthetase protein.

Putative thioredoxin protein.

Probable non ribosomal peptide synthetase protein.

epsIpolysaccharide export outer membrane epsa precursor. transmembrane protein; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. Belongs to the BexD/CtrA/VexA family.

Probable non ribosomal peptide synthetase protein.

Putative tyrosine-protein kinase epsb (eps ipolysaccharide export epsb). transmembrane; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. May be involved in an ATP-dependent process in the pathway for EPS I production, possibly export of the trimeric repeat units across the inner membrane or their polymerization (By similarity).

Probable non ribosomal peptide synthetase protein.

epsIpolysaccharide export inner membrane epse. transmembrane protein; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. May play a role in export of EPS I or its intermediates across the membranes (By similarity); To E.coli bicyclomycin resistance protein (BCR).

Probable non ribosomal peptide synthetase protein.

Probable low molecular weight protein-tyrosine-phosphatase epsp; May be involved in assembly or function of the EPS I polymerization/export complex and/or the EpsB ATPase. Alternatively it may function in the removal of the terminal phosphate from C55- isoprenyl pyrophosphate in order to recycle the C55-isoprenyl phosphate lipid carrier used in the synthesis of polysaccharide repeat units (By similarity).

Probable non ribosomal peptide synthetase protein.

Probable thioredoxin 1 (redox factor) protein; Belongs to the thioredoxin family.

Probable non ribosomal peptide synthetase protein.

Hypothetical protein; Single strand-specific metallo-endoribonuclease involved in late-stage 70S ribosome quality control and in maturation of the 3' terminus of the 16S rRNA.

epsIpolysaccharide export outer membrane epsa precursor. transmembrane protein; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. Belongs to the BexD/CtrA/VexA family.

Probable non ribosomal peptide synthetase protein.

epsIpolysaccharide export outer membrane epsa precursor. transmembrane protein; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. Belongs to the BexD/CtrA/VexA family.

Putative tyrosine-protein kinase epsb (eps ipolysaccharide export epsb). transmembrane; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. May be involved in an ATP-dependent process in the pathway for EPS I production, possibly export of the trimeric repeat units across the inner membrane or their polymerization (By similarity).

epsIpolysaccharide export outer membrane epsa precursor. transmembrane protein; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. Belongs to the BexD/CtrA/VexA family.

Udp-n-acetylglucosamine 2-epimerase (udp-glcnac-2-epimerase) protein; May be involved in synthesis of N-acetyltrideoxygalactose, a component of exopolysaccharide EPS I which functions as a virulence factor; Belongs to the UDP-N-acetylglucosamine 2-epimerase family.

epsIpolysaccharide export outer membrane epsa precursor. transmembrane protein; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. Belongs to the BexD/CtrA/VexA family.

Ndp-n-acetyl-d-galactosaminuronic acid dehydrogenase. oxidoreductase protein; Probably involved in the synthesis of sugar components of EPS I, by converting NDP-N-acetyl-D-galactosamine into NDP-N-acetyl-D- galactosaminuronic acid.

epsIpolysaccharide export outer membrane epsa precursor. transmembrane protein; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. Belongs to the BexD/CtrA/VexA family.

epsIpolysaccharide export inner membrane epse. transmembrane protein; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. May play a role in export of EPS I or its intermediates across the membranes (By similarity); To E.coli bicyclomycin resistance protein (BCR).

epsIpolysaccharide export outer membrane epsa precursor. transmembrane protein; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. Belongs to the BexD/CtrA/VexA family.

epsIpolysaccharide export inner membrane epsf. transmembrane protein; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. May play a role in export of EPS I or its intermediates across the membranes (By similarity); To S.marcescens SfuB.

epsIpolysaccharide export outer membrane epsa precursor. transmembrane protein; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. Belongs to the BexD/CtrA/VexA family.

Probable low molecular weight protein-tyrosine-phosphatase epsp; May be involved in assembly or function of the EPS I polymerization/export complex and/or the EpsB ATPase. Alternatively it may function in the removal of the terminal phosphate from C55- isoprenyl pyrophosphate in order to recycle the C55-isoprenyl phosphate lipid carrier used in the synthesis of polysaccharide repeat units (By similarity).

Putative tyrosine-protein kinase epsb (eps ipolysaccharide export epsb). transmembrane; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. May be involved in an ATP-dependent process in the pathway for EPS I production, possibly export of the trimeric repeat units across the inner membrane or their polymerization (By similarity).

Probable non ribosomal peptide synthetase protein.

Putative tyrosine-protein kinase epsb (eps ipolysaccharide export epsb). transmembrane; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. May be involved in an ATP-dependent process in the pathway for EPS I production, possibly export of the trimeric repeat units across the inner membrane or their polymerization (By similarity).

epsIpolysaccharide export outer membrane epsa precursor. transmembrane protein; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. Belongs to the BexD/CtrA/VexA family.

Putative tyrosine-protein kinase epsb (eps ipolysaccharide export epsb). transmembrane; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. May be involved in an ATP-dependent process in the pathway for EPS I production, possibly export of the trimeric repeat units across the inner membrane or their polymerization (By similarity).

Udp-n-acetylglucosamine 2-epimerase (udp-glcnac-2-epimerase) protein; May be involved in synthesis of N-acetyltrideoxygalactose, a component of exopolysaccharide EPS I which functions as a virulence factor; Belongs to the UDP-N-acetylglucosamine 2-epimerase family.

Putative tyrosine-protein kinase epsb (eps ipolysaccharide export epsb). transmembrane; Probably involved in polymerization and/or export of exopolysaccharide EPS I which functions as a virulence factor. May be involved in an ATP-dependent process in the pathway for EPS I production, possibly export of the trimeric repeat units across the inner membrane or their polymerization (By similarity).

Ndp-n-acetyl-d-galactosaminuronic acid dehydrogenase. oxidoreductase protein; Probably involved in the synthesis of sugar components of EPS I, by converting NDP-N-acetyl-D-galactosamine into NDP-N-acetyl-D- galactosaminuronic acid.