2.3.2.18: N-acetylmuramoyl-L-alanyl-D-glutamyl-L-lysyl-(N6-triglycine)-D-alanyl-D-alanine-diphosphoundecaprenyl-N-acetylglucosamine:glycine glycyltransferase
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Reaction
+ 2 glycyl-tRNAGly = + 2 tRNAGly
Synonyms
FemABX peptidyl transferase, FemB
ECTree
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General Information
General Information on EC 2.3.2.18 - N-acetylmuramoyl-L-alanyl-D-glutamyl-L-lysyl-(N6-triglycine)-D-alanyl-D-alanine-diphosphoundecaprenyl-N-acetylglucosamine:glycine glycyltransferase
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malfunction
metabolism
physiological function
decreased expression of the femB gene leads to reduced methicillin resistance
malfunction
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a Staphylococcus carnosus femB deletion mutant is affected in growth and shows pleiotropic effects such as enhanced methicillin sensitivity, lysostaphin resistance, cell clustering, and decreased peptidoglycan crosslinking
malfunction
a femB deletion leads to accumulation of triglycine which decreases the interpeptide cross-linking in the peptidoglycan (PGN) sacculus as compared to wild-type cells
malfunction
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a Staphylococcus carnosus femB deletion mutant is affected in growth and shows pleiotropic effects such as enhanced methicillin sensitivity, lysostaphin resistance, cell clustering, and decreased peptidoglycan crosslinking
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malfunction
Staphylococcus aureus NewmanHG
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a femB deletion leads to accumulation of triglycine which decreases the interpeptide cross-linking in the peptidoglycan (PGN) sacculus as compared to wild-type cells
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kinase Stk and phosphatase Stp modulate cell wall synthesis and cell division at several levels. Enzyme FemB interacts with the eukaryotic-like serine/threonine kinase Stk, but is not phosphorylated by it, while the lipid II:glycine glycyltransferase FemX can be phosphorylated by the Ser/Thr kinase Stk in vitro. The cognate phosphatase Stp dephosphorylates these phosphorylation sites. Stk interacts with FemA/B and other cell wall synthesis and cell division proteins, but Stk does not phosphorylate FemA and FemB. FemX interacts neither with Stk, Stp, FemA nor FemB. But FemX interacts weakly with Pbp2, RodA, DivIC and EzrA. Interaction network of Stk, Stp and FemX/A/B proteins among cell wall synthesis and cell division proteins as determined by bacterial two-hybrid analysis, overview
metabolism
Staphylococcus aureus NewmanHG
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kinase Stk and phosphatase Stp modulate cell wall synthesis and cell division at several levels. Enzyme FemB interacts with the eukaryotic-like serine/threonine kinase Stk, but is not phosphorylated by it, while the lipid II:glycine glycyltransferase FemX can be phosphorylated by the Ser/Thr kinase Stk in vitro. The cognate phosphatase Stp dephosphorylates these phosphorylation sites. Stk interacts with FemA/B and other cell wall synthesis and cell division proteins, but Stk does not phosphorylate FemA and FemB. FemX interacts neither with Stk, Stp, FemA nor FemB. But FemX interacts weakly with Pbp2, RodA, DivIC and EzrA. Interaction network of Stk, Stp and FemX/A/B proteins among cell wall synthesis and cell division proteins as determined by bacterial two-hybrid analysis, overview
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FemB catalyzes the third step in the synthesis of the pentaglycine interpeptide bridge crosslinking different glycan strands in Staphylococcus aureus. FemX adds the first glycine residue to MurNAc-L-Ala-D-Glu-(N6-Gly)L-Lys-D-Ala-D-Ala-diphosphoundecaprenyl-M-acetylglucosamine, i.e. lipid II. Addition of glycine residues 2, 3 and glycine residues 4, 5 is catalyzed by enzymes FemA and FemB, respectively. None of the FemABX enzymes requires the presence of one or two of the other Fem proteins for activity, rather, bridge formation is delayed in an in vitro system when all 3 enzymes are present
physiological function
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FemB is involved in the addition of exclusively glycine residues 4 and 5 to the staphylococcal interpeptide bridge. femA mutants leading to truncated proteins still produce intact FemB while exhibiting a phenotype identical to femAB double mutants, such as same muropeptide pattern. FemA is essential for the addition of glycine residues 2 and 3 only to the staphylococcal interpeptide bridge, and FemB cannot substitute for FemA
physiological function
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surface protein is linked to tri- and monoglycyl cross-bridges of peptidoglycan isolated from femB and femA mutant staphylococci, respectively. Peptidoglycan analysis of a femAB mutant strain reveals the presence of pentaglycyl, tetraglycyl-monoseryl, and monoglycyl as well as small amounts of triglycyl cross-bridges. Analysis of anchor peptides shows that surface proteins are mostly linked to tetraglycylmonoseryl as well as pentaglycyl. The sortase activity of Staphylococcus aureus prefers cross-bridges containing five residues, but altered cell-wall cross-bridges can be linked to the COOH-terminal end of surface proteins
physiological function
the bacterial cell envelope is essential for survival and pathogenicity. It forms a barrier against environmental stresses and contributes to virulence and antibiotic resistance. The cell wall of Gram-positive bacteria is composed of a multi-layered mesh of cross-linked peptidoglycan (PGN). PGN consists of chains of repeating disaccharide units comprising N-acetylglucosamine (GlcNAc) and N-acetylmuramic acid (MurNAc). The lactoyl group of MurNAc is supplemented with a penta stem peptide (L-Ala-D-isoGlu-L-Lys-D-Ala-D-Ala). The staphylococcal PGN polysaccharide chains are highly cross-linked via interpeptide bridges of five glycyl residues protruding from the L-lysine of the stem-peptides4. These interpeptide bridges are synthesized by the FemX/A/B enzymes. These non-ribosomal peptidyl-transferases use glycyltRNAs to sequentially add five glycine's to the PGN-lysyl side chain of lipid II. FemX adds the first glycyl unit, FemA the second and third unit, and FemB adds the fourth and fifth glycyl unit to complete the pentaglycine-bridge. Enzyme FemB interacts with the eukaryotic-like serine/threonine kinase Stk, but is not phosphorylated by it. FemA and FemB interact with Stk and with cell wall synthesis enzymes (MurG, Pbp1, Pbp2), Mgt, LytH, RodA, FtsW and cell division proteins (DivIB, DivIC, EzrA). FemA and FemB interact with each other and also form homodimers, which is not the case for FemX. In contrast to FemX, the subsequent enzymes FemA or FemB are non-essential
physiological function
Staphylococcus aureus NewmanHG
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the bacterial cell envelope is essential for survival and pathogenicity. It forms a barrier against environmental stresses and contributes to virulence and antibiotic resistance. The cell wall of Gram-positive bacteria is composed of a multi-layered mesh of cross-linked peptidoglycan (PGN). PGN consists of chains of repeating disaccharide units comprising N-acetylglucosamine (GlcNAc) and N-acetylmuramic acid (MurNAc). The lactoyl group of MurNAc is supplemented with a penta stem peptide (L-Ala-D-isoGlu-L-Lys-D-Ala-D-Ala). The staphylococcal PGN polysaccharide chains are highly cross-linked via interpeptide bridges of five glycyl residues protruding from the L-lysine of the stem-peptides4. These interpeptide bridges are synthesized by the FemX/A/B enzymes. These non-ribosomal peptidyl-transferases use glycyltRNAs to sequentially add five glycine's to the PGN-lysyl side chain of lipid II. FemX adds the first glycyl unit, FemA the second and third unit, and FemB adds the fourth and fifth glycyl unit to complete the pentaglycine-bridge. Enzyme FemB interacts with the eukaryotic-like serine/threonine kinase Stk, but is not phosphorylated by it. FemA and FemB interact with Stk and with cell wall synthesis enzymes (MurG, Pbp1, Pbp2), Mgt, LytH, RodA, FtsW and cell division proteins (DivIB, DivIC, EzrA). FemA and FemB interact with each other and also form homodimers, which is not the case for FemX. In contrast to FemX, the subsequent enzymes FemA or FemB are non-essential
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