Modified Fc regions of antibodies and antibody fragments, both human and humanized, and having enhanced stability and efficacy, are provided. Fc regions with core fucose residues removed, and attached to oligosaccharides comprising terminal sialyl residues, are provided. Antibodies comprising homogeneous glycosylation of Fc regions with specific oligosaccharides are provided. Fc regions conjugated with homogeneous glycoforms of monosaccharides and trisaccharides, are provided. Methods of preparing human antibodies with modified Fc using glycan engineering, are provided.

The present invention discloses a conjugate comprising an antigen (for example a saccharide antigen) covalently linked to a Pseudomonas aeruginosa PcrV carrier protein comprising an amino acid sequence which is at least 80% identical to the sequence of SEQ ID NO:1-4, wherein the antigen is linked (either directly or through a linker) to an amino acid residue of the P. aeruginosa PcrV carrier protein. The invention also discloses Pseudomonas aeruginosa PcrV proteins that contain glycosylation site consensus sequences.

The present invention relates to a method for separating sialylated oligosaccharides from a fermentation broth in which they are produced by a genetically modified microorganism The separation comprises the steps of: i) ultrafiltration; ii) nano-filtration; iii) optionally, activated charcoal treatment; and iv) treatment with strong anion and/or cation exchange resin.

Compositions for producing glycoengineered proteins, e.g. antibodies, include host cells which lack the ability to produce enzymes that modulate sialic acid metabolic flux.

Modified Fc regions of antibodies and antibody fragments, both human and humanized, and having enhanced stability and efficacy, are provided. Fc regions with core fucose residues removed, and attached to oligosaccharides comprising terminal sialyl residues, are provided. Antibodies comprising homogeneous glycosylation of Fc regions with specific oligosaccharides are provided. Fc regions conjugated with homogeneous glycoforms of monosaccharides and trisaccharides, are provided. Methods of preparing human antibodies with modified Fc using glycan engineering, are provided.

In one aspect, the disclosure provides proteins with modified glycosylation and methods of their production. In aspect, the disclosure provides transgenic animals and cells for the production of proteins with modified glycosylation. In some embodiment, the modified glycosylation is increased sialylation.

A mixture of human milk oligosaccharides that consists essentially of 6-SL, LNnT and LSTc, made by treating 6-SL and LNnT in the presence of an 2,6-transsialidase.

Methods for recombinant production of steviol glycoside and compositions containing steviol glycosides are provided herein.

The present invention provides Photobacterium sp. JH-ISH-224 2-6-sialyltransferase Psp26ST variants and expression cassettes, vectors, and host cells for expressing the Psp26ST variants. Methods of synthesizing sialylated products are also described.

The disclosure is in the technical field of synthetic biology and metabolic engineering. More particularly, the disclosure is in the technical field of metabolically engineered cells and use of the cells in a cultivation or fermentation. The disclosure describes a cell and a method for production of a di- and/or oligosaccharide. The cell comprises a pathway for production of the di- and/or oligosaccharide and is genetically modified for expression and/or overexpression of at least one set of multiple coding DNA sequences wherein the multiple coding DNA sequences within one set differ in nucleotide sequence and each encode a polypeptide, wherein the polypeptides have the same function and/or activity of interest. Furthermore, the disclosure provides for purification of the di- and/or oligosaccharide from the cultivation.