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A distinctive family of L,D-transpeptidases catalyzing L-Ala-mDAP crosslinks in Alpha- and Betaproteobacteria.

Akbar EspaillatLaura AlvarezGabriel TorrensJosy Ter BeekVega Miguel-RuanoOihane IrazokiFederico GagoJuan A HermosoRonnie P-A BerntssonFelipe Cava
Published in: Nature communications (2024)
The bacterial cell-wall peptidoglycan is made of glycan strands crosslinked by short peptide stems. Crosslinks are catalyzed by DD-transpeptidases (4,3-crosslinks) and LD-transpeptidases (3,3-crosslinks). However, recent research on non-model species has revealed novel crosslink types, suggesting the existence of uncharacterized enzymes. Here, we identify an LD-transpeptidase, LDT Go , that generates 1,3-crosslinks in the acetic-acid bacterium Gluconobacter oxydans. LDT Go -like proteins are found in Alpha- and Betaproteobacteria lacking LD3,3-transpeptidases. In contrast with the strict specificity of typical LD- and DD-transpeptidases, LDT Go can use non-terminal amino acid moieties for crosslinking. A high-resolution crystal structure of LDT Go reveals unique features when compared to LD3,3-transpeptidases, including a proline-rich region that appears to limit substrate access, and a cavity accommodating both glycan chain and peptide stem from donor muropeptides. Finally, we show that DD-crosslink turnover is involved in supplying the necessary substrate for LD1,3-transpeptidation. This phenomenon underscores the interplay between distinct crosslinking mechanisms in maintaining cell wall integrity in G. oxydans.
Keyphrases
  • cell wall
  • amino acid
  • high resolution
  • magnetic resonance
  • magnetic resonance imaging
  • mass spectrometry
  • single cell
  • computed tomography
  • body composition
  • contrast enhanced
  • cell surface
  • high speed