Abstract
Disulfide bonds occurred in majority of secreted protein. Formation of correct disulfide bonds are must for achieving native conformation, solubility and activity. Production of recombinant proteins containing disulfide bond for therapeutic, diagnostic and various other purposes is a challenging task of research. Production of such proteins in the reducing cytosolic compartment of E. coli usually ends up in inclusion bodies formation. Refolding of inclusion bodies can be difficult, time and labor consuming and uneconomical. Translocation of these proteins into the oxidative periplasmic compartment provides correct environment to undergo proper disulfide bonds formation and thus achieving native conformation. However, not all proteins can be efficiently translocated to the periplasm with the help of bacterial signal peptides. Therefore, fusion to a small well-folded and stable periplasmic protein is more promising for periplasmic production of disulfide bonded proteins. In the past decades, several full-length proteins or domains were used for enhancing translocation and solubility. Here, protein fusion tags that significantly increase the yields of target proteins in the periplasmic space are reviewed.
Highlights
Since the advent of production of recombinant proteins, application of therapeutic and diagnostic proteins as biopharmaceuticals was changed remarkably (Walsh 2014)
Page 5 of 7 44 enzymatically inactive variant of RNAse was used as a fusion protein to enhance the secretion of cysteine-knot peptides in the periplasmic space
Protein fusion tag with lM-nM ligand affinity generally results in 90–99 % purity after affinity chromatography
Summary
Since the advent of production of recombinant proteins, application of therapeutic and diagnostic proteins as biopharmaceuticals was changed remarkably (Walsh 2014). These proteins are required in huge amount and usually can not be obtained from natural sources due to extremely low availability. Significant improvements have been made at transcription, translation and translocation, still obtaining soluble and bioactive proteins is a major challenge (Pines and Inouye 1999; Baneyx 1999; Rosano and Ceccarelli 2014). Secreted proteins such as antibodies, enzymes, hormones etc. In vitro oxidative refolding is difficult, laborious, time consuming and may be uneconomical
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
