Л. Л. Данилов scite author profile

Group A carbohydrate (GAC) is a bacterial peptidoglycan-anchored surface rhamnose polysaccharide (RhaPS) that is essential for growth of Streptococcus pyogenes and contributes to its ability to infect the human host. In this study, using molecular and synthetic biology approaches, biochemistry, radiolabeling techniques, and NMR and MS analyses, we examined the role of GacB, encoded in the S. pyogenes GAC gene cluster, in the GAC biosynthesis pathway. We demonstrate that GacB is the first characterized α-d-GlcNAc-β-1,4-l-rhamnosyltransferase that synthesizes the committed step in the biosynthesis of the GAC virulence determinant. Importantly, the substitution of S. pyogenes gacB with the homologous gene from Streptococcus agalactiae (Group B Streptococcus), Streptococcus equi subsp. zooepidemicus (Group C Streptococcus), Streptococcus dysgalactiae subsp. equisimilis (Group G Streptococcus), or Streptococcus mutans complemented the GAC biosynthesis pathway. These results, combined with those from extensive in silico studies, reveal a common phylogenetic origin of the genes required for this priming step in >40 pathogenic species of the Streptococcus genus, including members from the Lancefield Groups B, C, D, E, G, and H. Importantly, this priming step appears to be unique to streptococcal ABC transporter–dependent RhaPS biosynthesis, whereas the Wzx/Wzy-dependent streptococcal capsular polysaccharide pathways instead require an α-d-Glc-β-1,4-l-rhamnosyltransferase. The insights into the RhaPS priming step obtained here open the door to targeting the early steps of the group carbohydrate biosynthesis pathways in species of the Streptococcus genus of high clinical and veterinary importance.

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Polyprenyl phosphates: synthesis and structure-activity relationship for a biosynthetic system of Salmonella anatum O-specific polysaccharide

Данилов

Дружинина

Kalinchuk

et al. 1989

Chemistry and Physics of Lipids

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Investigations of the Active Site of Saccharomyces cerevisiae Dolichyl-Phosphate-Mannose Synthase Using Fluorescent Labeled Dolichyl-Phosphate Derivatives

et al. 2000

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Dolichol-phosphate mannose (Dol-P-Man) is a key mannosyl donor for the biosynthesis of N-linked oligosaccharides as well as for O-linked oligosaccharides on yeast glycoproteins, and for the synthesis of the glycosyl-phosphatidylinositol anchor found on many cell surface glycoproteins. It is synthesized by Dol-P-Man synthase which is the only glycosyltransferase in the dolichol pathway that has been expressed as an active protein, solubilized and purified in large enough quantities for structural investigations. Earlier studies showed that the enzyme is closely associated with membranes of endoplasmic reticulum with unique lipid requirements for its maximal activity. This potential target of antibiotic therapy is now being investigated at the molecular level to establish information about the structure of the enzyme as well as determine the nature and properties of the enzyme-phospholipid interactions. In this paper, we have determined the activities of the fluorescent labeled dolichyl-phosphate derivatives as well as the intramolecular distances between amino acid residues near the active site and/or the fluorophores of the substrate derivatives using fluorescence energy resonance transfer. These results also show that the conserved consensus sequence is not required by Dol-P-Man synthase neither for the recognition of Dol-P nor for the catalytic activity.

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A simple procedure for preparing dolichyl monophosphate by the use of POCl₃

Данилов

Chojnacki

1981

FEBS Letters

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