A mixture of human milk oligosaccharides that consists essentially of 3′-O-sialyllactose, a component A which is either 3-O-fucosyllactose or lacto-N-tetraose, a component B which is 3-0-fucosyl-3′-O-sialyllactose when component A is 3-O-fucosyllactose and sialyllacto-N-tetraose a, when component A is lacto-N-tetraose and optionally lactose as a fourth component. The mixtures are made by treating 3′-O-sialyllactose and component A with an α2,3-transsialidase. The mixtures are for use in anti-bacterial and anti-viral compositions, and for promoting the development of Bifidobacterium and Barnesiella.

A mixture of human milk oligosaccharides that consists essentially of 3′-O-sialyllactose, a component A which is either 3-O-fucosyllactose or lacto-N-tetraose, a component B which is 3-0-fucosyl-3′-O-sialyllactose when component A is 3-O-fucosyllactose and sialyllacto-N-tetraose a, when component A is lacto-N-tetraose and optionally lactose as a fourth component. The mixtures are made by treating 3′-O-sialyllactose and component A with an α2,3-transsialidase. The mixtures are for use in anti-bacterial and anti-viral compositions, and for promoting the development of Bifidobacterium and Barnesiella.

Described are novel targeting ligands that may be linked to compounds, such therapeutic compounds that are useful in directing the compounds to the in vivo target. The targeting ligands disclosed herein can serve to target expression-inhibiting oligomeric compounds, such as RNAi agents, to liver cells to modulate gene expression. The targeting ligands disclosed herein, when conjugated to a therapeutic compound, may be used in a variety of applications, including use in therapeutic, diagnostic, target validation, and genomic discovery applications. Compositions including the targeting ligands disclosed herein when linked to expression-inhibiting oligomeric compounds are capable of mediating expression of target nucleic acid sequences in liver cells, such as hepatocytes, which may be useful in the treatment of diseases or conditions that respond to inhibition of gene expression or activity in a cell, tissue, or organism.

Described are novel targeting ligands that may be linked to compounds, such therapeutic compounds that are useful in directing the compounds to the in vivo target. The targeting ligands disclosed herein can serve to target expression-inhibiting oligomeric compounds, such as RNAi agents, to liver cells to modulate gene expression. The targeting ligands disclosed herein, when conjugated to a therapeutic compound, may be used in a variety of applications, including use in therapeutic, diagnostic, target validation, and genomic discovery applications. Compositions including the targeting ligands disclosed herein when linked to expression-inhibiting oligomeric compounds are capable of mediating expression of target nucleic acid sequences in liver cells, such as hepatocytes, which may be useful in the treatment of diseases or conditions that respond to inhibition of gene expression or activity in a cell, tissue, or organism.

Disclosed are peptides comprising an amphiphilic backbone and a cationic heparin-binding motif peptide. The peptides can be used in methods of antimicrobial treatment.

Disclosed herein are oligosaccharides and intermediates useful for the production thereof. The compounds are useful as analytical standards and as intermediates for the preparation of more complex oligosaccharide and N-glycan products. The compounds may be prepared in high purity using the selective stop/go synthetic methods disclosed herein.

Disclosed herein are oligosaccharides and intermediates useful for the production thereof. The compounds are useful as analytical standards and as intermediates for the preparation of more complex oligosaccharide and N-glycan products. The compounds may be prepared in high purity using the selective stop/go synthetic methods disclosed herein.

The disclosure provides, in various embodiments, methods of treating fungal infections in subjects in need thereof, methods of attenuating virulence of fungi (e.g., in subjects in need thereof), and methods of inhibiting formation of fungal biofilms on surfaces (e.g., living or inert surfaces) with mucin glycans, tautomer, stereoisomer and/or pharmaceutically acceptable salts thereof. The disclosure further provides, in various embodiments, mucin glycan compositions, such as synthetic mucin glycans and defined mucin glycan compositions.

The present invention relates to a compound useful as vaccine adjuvant, a manufacturing process thereof, a pharmaceutical composition comprising the compound, and use of the compound as vaccine adjuvant.

The present invention relates to a compound useful as vaccine adjuvant, a manufacturing process thereof, a pharmaceutical composition comprising the compound, and use of the compound as vaccine adjuvant.