Disclosed herein are genetically modified microorganisms and related methods for the enhanced production and export of oligosaccharides. The microorganisms described herein express major facility superfamily proteins such as CDT-1, which allows for the export of oligosaccharides. Variants of CDT-1 exhibit higher activity regarding oligosaccharide export. The microorganisms described herein express formation enzymes for the production of oligosaccharides. Means to export oligosaccharides into the growth medium are provided herein.

Described herein are methods of producing glycosylated proteins in vitro and in vivo. The methods include using host cells to produce glycosylated proteins. Also described herein are glycosylated proteins produced using such methods and uses thereof.

The present invention is in the field of a method for production of biomedical compounds by enrichment cultures of microorganisms, and a product obtainable by said methods. The microorganisms are grown in a batch reactor, a continuous reactor, a semi-continuous reactor, such as a Nereda® reactor.

Provided herein are genetically modified yeast cells capable of producing one or more human milk oligosaccharides (HMOs) and methods of making such cells. The yeast cells are engineered to comprise a heterologous nucleic acid encoding a transporter protein and one or more heterologous nucleic acids that encode enzymes of a HMO biosynthetic pathway. Also provided are fermentation compositions including the disclosed genetically modified yeast cells, and related methods of producing and recovering HMOs generated by the yeast cells.

Described herein are methods of producing glycosylated proteins in vitro and in vivo. The methods include using host cells to produce glycosylated proteins. Also described herein are glycosylated proteins produced using such methods and uses thereof.

Provided herein, inter alia, are methods, bacteria, nucleic acids, and polypeptides for producing sialylated oligosaccharides.

Provided herein, inter alia, are methods, bacteria, nucleic acids, and polypeptides for producing sialylated oligosaccharides.

Methods for removing heavy metals from contaminated water including contacting contaminated water with polysaccharides from N. meningitides serotypes B and W; a fusion gene product and fusion enzyme including silica acid synthase and CMP sialic acid synthetase, and use of the fusion enzyme in a simplified process to make CMP Sialic acid and derivatives thereof. Use of CMP Sialic acid and derivatives thereof to remove heavy metals from contaminated water.

Provided herein are genetically modified yeast cells capable of producing one or more human milk oligosaccharides. The yeast cells include one or more heterologous nucleic acids that encode enzymes of a human milk oligosaccharide biosynthetic pathway. The yeast cells do not include a heterologous nucleic acid encoding a fucokinase. Also provided are fermentation compositions including the disclosed genetically modified yeast cells, and related methods of producing and recovering human milk oligosaccharides generated by the yeast cells.

Methods for removing heavy metals from contaminated water including contacting contaminated water with polysaccharides from N. meningitides serotypes B and W; a fusion gene product and fusion enzyme including silica acid synthase and CMP sialic acid synthetase, and use of the fusion enzyme in a simplified process to make CMP Sialic acid and derivatives thereof. Use of CMP Sialic acid and derivatives thereof to remove heavy metals from contaminated water.