Abstract: The present disclosure provides methods of preparing heteroaryl-containing compounds, wherein an azide-alkyne cycloaddition is accelerated in the presence of lauryldimethylamine oxide (LDAO). The present disclosure further provides conjugates of polypeptides and antigens prepared using such methods.

Abstract: The present disclosure provides a cell-free method for synthesizing an Invasion Plasmid Antigen B (IpaB) antigen associated with a Shigella bacterium comprising exogenous addition of the purified chaperone protein IpgC to the cell-free synthesis mixture. The disclosure further provides IpaB antigen mutants comprising non-natural amino acids incorporated during cell-free synthesis, enabling covalent conjugation to a Shigella O-antigen polysaccharide. Further provided are Ipa B antigens and conjugates thereof, as well as immunogenic compositions prepared with the synthesized IpaB antigens and conjugates thereof and methods of use.

Abstract: The present disclosure provides methods of preparing heteroaryl-containing compounds, wherein an azide-alkyne cycloaddition is accelerated in the presence of lauryldimethylamine oxide (LDAO). The present disclosure further provides conjugates of polypeptides and antigens prepared using such methods.

Abstract: Methods for the production of immunogenic compositions containing a non-natural amino acid are disclosed. The non-natural amino acid can be a site for attachment of antigens, such as bacterial capsular polysaccharides, to make immunogenic conjugates. Bio-orthogonal attachment chemistry incorporated into the non-natural amino acids allows for more efficient and potent antigen presentation to the immune system, simplified purification, and more well-defined structure of these semi-synthetic immunogens.

Abstract: Methods for the production of immunogenic compositions containing a non-natural amino acid are disclosed. The non-natural amino acid can be a site for attachment of antigens, such as bacterial capsular polysaccharides, to make immunogenic conjugates. Bio-orthogonal attachment chemistry incorporated into the non-natural amino acids allows for more efficient and potent antigen presentation to the immune system, simplified purification, and more well-defined structure of these semi-synthetic immunogens.

Abstract: The present disclosure provides immunogenic compositions comprising Group A Streptococcus (GAS) polypeptide antigens and at least one polypeptide-polysaccharide conjugate. The present disclosure further provides methods of using such compositions to induce immune responses against GAS infections in subjects.

Abstract: The present disclosure provides methods of preparing heteroaryl-containing compounds, wherein an azide-alkyne cycloaddition is accelerated in the presence of lauryldimethylamine oxide (LDAO). The present disclosure further provides conjugates of polypeptides and antigens prepared using such methods.

Abstract: The present disclosure provides a cell-free method for synthesizing an Invasion Plasmid Antigen B (IpaB) antigen associated with a Shigella bacterium comprising exogenous addition of the purified chaperone protein IpgC to the cell-free synthesis mixture. The disclosure further provides IpaB antigen mutants comprising non-natural amino acids incorporated during cell-free synthesis, enabling covalent conjugation to a Shigella O-antigen polysaccharide. Further provided are Ipa B antigens and conjugates thereof, as well as immunogenic compositions prepared with the synthesized IpaB antigens and conjugates thereof and methods of use.

Abstract: Methods for the production of immunogenic compositions containing a non-natural amino acid are disclosed. The non-natural amino acid can be a site for attachment of antigens, such as bacterial capsular polysaccharides, to make immunogenic conjugates. Bio-orthogonal attachment chemistry incorporated into the non-natural amino acids allows for more efficient and potent antigen presentation to the immune system, simplified purification, and more well-defined structure of these semi-synthetic immunogens.