EC Number |
Title |
Organism |
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2.7.8.33 | The CpxAR two-component system contributes to growth, stress resistance, and virulence of Actinobacillus pleuropneumoniae by upregulating wecA transcription |
Actinobacillus pleuropneumoniae serotype 5b L20 |
2.7.8.33 | Analogies and homologies in lipopolysaccharide and glycoprotein biosynthesis in bacteria |
Escherichia coli |
2.7.8.33 | Catalytic mechanism of MraY and WecA, two paralogues of the polyprenyl-phosphate N-acetylhexosamine 1-phosphate transferase superfamily |
Thermotoga maritima |
2.7.8.33 | Catalytic mechanism of MraY and WecA, two paralogues of the polyprenyl-phosphate N-acetylhexosamine 1-phosphate transferase superfamily |
Thermotoga maritima ATCC 43589 |
2.7.8.33 | Characterization of the highly conserved VFMGD motif in a bacterial polyisoprenyl-phosphate N-acetylaminosugar-1-phosphate transferase |
Escherichia coli |
2.7.8.33 | Conserved amino acid residues found in a predicted cytosolic domain of the lipopolysaccharide biosynthetic protein WecA are implicated in the recognition of UDP-N-acetylglucosamine |
Escherichia coli |
2.7.8.33 | Functional characterization and membrane topology of Escherichia coli WecA, a sugar-phosphate transferase initiating the biosynthesis of enterobacterial common antigen and O-antigen lipopolysaccharide |
Escherichia coli |
2.7.8.33 | Helicobacter pylori lipopolysaccharide is synthesized via a novel pathway with an evolutionary connection to protein N-glycosylation |
Helicobacter pylori |
2.7.8.33 | Inhibition of the first step in synthesis of the mycobacterial cell wall core, catalyzed by the GlcNAc-1-phosphate transferase WecA, by the novel caprazamycin derivative CPZEN-45 |
Bacillus subtilis |
2.7.8.33 | Inhibition of the first step in synthesis of the mycobacterial cell wall core, catalyzed by the GlcNAc-1-phosphate transferase WecA, by the novel caprazamycin derivative CPZEN-45 |
Bacillus subtilis 168 |