The baculovirus-insect cell system consists of a recombinant baculovirus vector and its host, which may be a lepidopteran insect larvae or an established lepidopteran insect cell line. Hundreds of different recombinant proteins have been produced using the baculovirus-insect cell system, facilitating biomedical research on protein structure, function, and the roles of various proteins in disease. In addition, many biotechnology companies are using this system to produce recombinant proteins for potential clinical use as vaccines, therapeutics, or diagnostic reagents…
Tag: <span>N-glycosylation</span>
The insect cell/baculovirus expression system typically results in more rapid expression and higher concentrations of recombinant proteins than what can be achieved with other animal cell culture systems. The lack of complex glycosylation in the proteins produced by this system, however, limits its use in the commercial-scale production of therapeutics. Complex glycosylation is required in many cases for adequate protein activity and pharmokinetic characteristics. In contrast to the protein’s primary structure, which is encoded by the genetic material and is constant regardless of the host utilized, the extent of glycosylation is determined by the host, and by the protein itself. Even cells from different tissues of the same organism provide different glycosylation profiles. In addition, culture conditions and the cellular metabolic state can also influence protein glycosylation…