Abstract
The capsular polysaccharides of serogroup W-135 and Y meningococci are sialic acid-containing heteropolymers, with either galactose or glucose as the second sugar residue. As shown previously, sequences of the predicted enzymes that catalyse capsule polymerization, i.e. SiaD(W-135) and SiaD(Y), differ in only a few amino acids. By in vitro assays with purified recombinant proteins, SiaD(W-135) and SiaD(Y) were now confirmed to be the capsule polymerases harbouring both hexosyltransferase and sialyltransferase activity. In order to identify amino acids crucial for substrate specificity of the capsule polymerases, polymorphic sites were narrowed down by DNA sequence comparisons and subsequent site-directed mutagenesis. Serogroup-specific amino acids were restricted to the N-terminal part of the proteins. Exclusively amino acid 310, located within the nucleotide recognition domain of the enzymes' predicted hexosyltransferase moiety, accounted for substrate specificity as shown by immunochemistry and in vitro activity assay. Pro-310 determined galactosyltransferase activity that resulted in a serogroup W-135 capsule and Gly-310 determined glucosyltransferase activity that resulted in a serogroup Y capsule. In silico analysis revealed a similar amino acid-based association in other members of the same glycosyltransferase family irrespective of the bacterial species.
- ,
- acid
- acids,
- ag_vogel
- amino
- analysis,
- bacterial
- bacterial,
- bacterial_capsules
- capsules,
- data,
- genetic,
- hexosyltransferases,
- meningitidis,
- molecular
- molecular_epidemiology
- mutagenesis,
- neisseria
- plasmids,
- polymorphism,
- proteins,
- recombinant
- sequence
- sequence,
- serogroup
- specificity
- substrate
- w-135,
- y,
- {dna,}
- {dna},
- {site-directed,}
- {site-directed},
Users
Please
log in to take part in the discussion (add own reviews or comments).