Protein Refolding

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Recombinant DNA technology allows the expression of valuable heterologous proteins at high expression rates. Particularly in Escherichia coli (E. coli) overexpression of proteins often leads to aggregation and deposition in dense, insoluble particles within the host cell, so-called inclusion bodies (IB). Formation of inclusion bodies is heavily protein dependent, charge distribution and turn forming residues have a strong impact (1), also presence of cysteines may enforce tendency of aggregate formation (Rinas et al., 1992)but it may also be influenced by altering cell cultivation conditions (Panda et al., 1999). Image:Example.jpg

References

1. Wilkinson, D.L., Harrison, R.G., 1991. Predicting the solubility of recombinant proteins in Escherichia coli. Bio/Technology 9, 443–448. 2. Rinas, U., Tsai, L.B., Lyons, D., Fox, G.M., Stearns, G., Fieschko, J., Fenton, D., Bailey, J.E., 1992. Cysteine to serine substitutions in basic fibroblast growth factor: effect on inclusion body formation and proteolytic susceptibility during in vitro refolding. Bio/Technology 10, 435–440. 3. Panda, A.K., Khan, R.H., Rao, K., Totey, S.M., 1999. Kinetics of inclusion body production in batch and high cell density fed-batch culture of Escherichia coli expressing ovine growth hormone. J. Biotechnol. 75, 161–172.