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In cell biology and protein biochemistry, heterologous expression means that a protein is experimentally put into a cell that does not normally make (i.e., express) that protein. [1] Heterologous (meaning 'derived from a different organism') refers to the fact that often the transferred protein was initially cloned from or derived from a ...
This is because there is a lack of post-transcriptional modifications in prokaryotic systems. Limitations include intracellular accumulation of heterologous proteins, improper folding of the peptide, the potential for product degradation due to trace of protease impurities, and production of endotoxin.
More recently, Myceliophthora thermophila C1 has been developed into an expression platform for screening and production of native and heterologous proteins.The expression system C1 shows a low viscosity morphology in submerged culture, enabling the use of complex growth and production media.
Distinct protein subunits interact in hetero-oligomers, which are essential to control several cellular functions. The importance of the communication between heterologous proteins is even more evident during cell signaling events and such interactions are only possible due to structural domains within the proteins (as described below).
Other bacteria used for protein production include Bacillus subtilis. Most heterologous proteins are expressed in the cytoplasm of E. coli. However, not all proteins formed may be soluble in the cytoplasm, and incorrectly folded proteins formed in cytoplasm can form insoluble aggregates called inclusion bodies.
Once the heterologous protein has been fused with the bacterial cell surface protein, it is exposed to either an enzyme, a cell (expressing a target protein) or an antibody (usually fluorescently tagged), depending on the application of the experiment. The sample is then passed through a beam of light during FACS, in a very narrow stream of ...
Lactococcus lactis has been demonstrated to be a promising candidate for the delivery of functional proteins because of its noninvasive and nonpathogenic characteristics. [30] Many different expression systems of L. lactis have been developed and used for heterologous protein expression. [31] [32] [33]
Komagataella is frequently used as an expression system for the production of heterologous proteins. Several properties make Komagataella suited for this task. Currently, several strains of Komagataella are used for biotechnical purposes, with significant differences among them in growth and protein production. [19]