Designing an ELP-intein system: toward a more realistic outlook

Abstract

Despite the ever-growing demand for proteins in pharmaceutical applications, downstream processing imposes many technical and economic limitations to recombinant technology. Elastin-like polypeptides tend to aggregate reversibly at a specific temperature. These biopolymers have been joined with self-cleaving inteins to develop a non-chromatographic platform for protein purification without the need for expensive enzymatic tag removal. Following the design and expression of an ELP-intein-tagged GFP, herein, we report certain complications and setbacks associated with this protein purification system, overlooked in previous studies. Based on our results, a recovery rate of 68% was achieved using inverse transition cycling. Fluorescence intensity analysis indicated a production yield of 11 mg GFP fusion protein per liter of bacterial culture. The low expression level is attributable to several factors, such as irreversible aggregation, slipped-strand mispairing or insufficiency of aminoacyl tRNAs during protein translation of the highly repetitive ELP tag. While the goals we set out to achieve were not entirely met, a number of useful tips could be gathered as a generic means for implementing ELP-intein protein purification. Overall, we believe that such reports help clarify the exact capacity of emerging techniques and build a fairly realistic prospect toward their application.

Keywords:

• Elastin-like polypeptides
• intein
• inverse transition cycling
• non-chromatographic protein purification

Acknowledgement

This work was supported by Tarbiat Modares University of Medical Sciences, Tehran, Iran [IG-39702], and the Iran National Science Foundation (INSF) reference 92014127.

Disclosure statement

The authors declare that no competing financial interests exist.