TEV protease-eCPX fusion with universal expression

This composite is using a constitutive family promoter and artificial terminator to enable expression under non T7 vectors. The feasibility of the experiment will be tested by overexpressing the TEV protease as a protein of interest and by utilizing the terminal display scaffold of eCPX that will localize the TEV on the outer membrane of the E.coli. This cassette system is one of two that will be working to generate a CHOP system. Characterization of two expression systems (between T7 and non T7) is measured to select the ideal blueprint for the CHOP system.

Introduction

UBrawijaya iGEM 2021 project CHOP systemis an outer membrane vesicle based protein overexpression system that includes three goals towards producing a blueprint for an ideal protein production system. This project can be customized because the system can be adapted with various proteins of interest, the overexpression system that can increase protein yield, and the clean harvest with simplified purification steps that is equipped with a protease enzyme expression mechanism in the concentrated system - from vesicles and cell pellets.

This composite aims to know the feasibility of using a non T7 expression system for overexpressing the TEV protease, and by utilizing the terminal display scaffold eCPX will be localized on the outer membrane of the E.coli.

Usage and Biology

The eCPX scaffold in this system is under the control of a consensus constitutive promoter with strong RBS. The combination is used for high expression levels of proteins. eCPX is used because it has proven that the display rate of eCPX was improved relative to CPX and even higher than OmpX. Moreover, efficient eCPX allows for the potential to generate peptide libraries on each terminus [1]. The novel CHOP system created was based on a TEV protease-eCPX fusion with a general expression cassette designed to remove the fusion tag (TEV cleavage site) on amiCP-eCPX fusion. The existence of the TEV cleavage site as a cutting point for TEV protease and linker so that the developed system can be clean without any downstream processing. Afterwards, free amilCP acts as a reporter gene indicating that the CHOP system is working.

Result

Reference

[1] Rice, Jeffrey J., and Patrick S. Daugherty, "Directed evolution of a biterminal bacterial display scaffold enhances the display of diverse peptides," Protein Engineering, Design & Selection 21, no. 7. Pp. 435-442, Jul.2008.

Sequence and Features