The present invention is directed to a cell-free system for producing a glycosylated protein. This system comprises an isolated oligosaccharyltransferase capable of transferring a glycan from a lipid carrier molecule to a glycoprotein target, one or more isolated glycans, where each glycan is linked to a lipid carrier molecule, and a glycoprotein target comprising one or more glycan acceptor amino acid residues or a nucleic acid molecule encoding said glycoprotein target. The present invention further relates to kits and methods for producing a glycosylated protein in this cell-free system.

An Escherichia coli-based kdtA-gene-modified recombinant strain, a construction method therefor and use thereof are provided. A mutant gene obtained by subjecting a wild-type kdtA gene (ORF sequence is shown in a sequence 73556-74833 in GenBank accession No. CP032667.1), a wild-type spoT gene (ORF sequence is shown in a sequence 3815907-3818015 in GenBank accession No. AP009048.1) and a wild-type yebN gene (ORF sequence is shown in a sequence 1907402-1907968 in GenBank accession No. AP009048.1) of an E. coli K12 strain and a derivative strain thereof (such as MG1655 and W3110) to site-directed mutagenesis, and a recombinant strain obtained therefrom can be used for the production of L-threonine. Compared with an unmutated wild-type strain, the obtained strain can produce L-threonine with a higher concentration and has good strain stability, and also has lower production cost as an L-threonine production strain.

The invention pertains to host cells for producing a bioconjugate of an E. coli O18 antigen polysaccharide conjugated to a carrier protein. The host cells are characterized in that they comprise modified Wzy O-antigen polymerases with specific combinations of amino acid substitutions in one or more of positions 199, 377 and 395 as compared to the wild type Wzy O-antigen polymerase of SEQ ID NO: 1, which modified Wzy O-antigen polymerases improve the yield and glycosylation pattern of the O18 bioconjugates produced by the host cells. The invention further relates to methods wherein the host cells are used to produce a bioconjugate of an E. coli O18 antigen polysaccharide conjugated to a carrier protein, compositions comprising these bioconjugates, including multivalent compositions comprising bioconjugates of additional O antigen polysaccharide-serotypes.

The present invention relates to the finding of methods to shift the glycosylation profile of recombinant produced semm glycoproteins to the predominant bi-antennary form found in human plasma. This is accomplished by providing a mammalian cell line according to the invention with a series of gene disruptions and/or gene insertions that facilitate this shift.

The present disclosure provides compositions and methods for use in genome engineering of induced pluripotent stem cells (iPSCs). Specifically, the methods and compositions described are useful for introducing transgenes into iPSCs such as pluripotent hematopoietic stem cells and/or progenitor cells (HSC/PC) using an CRISPR nuclease-based system (e.g., MAD7 nuclease-based system) and preparing immune-effector cells derived from the iPSCs.

This disclosure provides a monoclonal population of highly sialylated multimeric binding molecules where the population includes IgM antibodies, IgM-like antibodies, or other IgM-derived binding molecules, where the population of binding molecules has a higher level of sialic acid content than is found in normal serum IgM. Also provided are methods of producing such monoclonal populations of highly sialylated multimeric binding molecules.

The invention provides compositions and methods for engineering bacteria to produce sialylated and N-acetylglucosamine-containing oligosaccharides, and the use thereof in the prevention or treatment of infection.

An automated bender and its method of operation according to some embodiments of the disclosure is provided. The automated bender includes a carousel which has all of the necessary components for bending a variety of conduit sizes provided thereon. The carousel can be rotated to a desired bending position to bend a particular type of conduit. A straight workpiece is fed into the automated bender and a bent workpiece, which may have multiple bends therein, is output from the automated bender. This bending process is performed without manual intervention. Software for achieving same is provided.

Methods of producing bioconjugates of O-antigen polysaccharides covalently linked to a carrier protein using recombinant host cells are provided. The recombinant host cells used in the methods described herein encode a particular oligosaccharyl transferase enzyme depending on the O-antigen polysaccharide bioconjugate to be produced. The oligosaccharyl transferase enzymes can be PglB oligosaccharyl transferase or variants thereof. Also provided are compositions containing the bioconjugates, and methods of using the bioconjugates and compositions described herein to vaccinate a subject against extra-intestinal pathogenic E. coli. (ExPEC).

The present invention relates to the production of steviol glycoside rebaudiosides D4, WB1 and WB2 and the production of rebaudioside M from Reb D4.