Expression of modified enhanced green fluorescent polyarginine protein in Saccharomyces cerevisiae INVSc1

Abstract

Background The enhanced green fluorescent protein (EGFP) gene is a reporter gene that can be used to optimize protein isolation procedures and the functional working of a transduction protein. EGFP, with the addition of eleven arginine residues, has been engineered to functionally improve the protein transduction process, which can later be used for cell reprogramming like induced pluripotent stem cells. The addition of six histidine amino acid residues at its C-terminal is intended for the protein isolation process using the His-tag antibody. Methods The study aimed to investigate the optimization of the EGFP polyarginine protein expression in Saccharomyces cerevisiae in sufficient quantities for the protein isolation stage. This study also analyzed EGFP expression without polyarginine to analyze the polyarginine addition effect on expression processes. Protein expression was qualitatively measured by looking at expression fluorescence and protein levels of EGFP and EGFP - PolyR proteins. Results The addition of a PolyR group to the C-terminal of EGFP carrying C-terminal 6×His-tag showed similar fluorescence expression levels compare to EGFP without addition of PolyR as well. Moreover, yeast with plasmid insertion showed decrease S. cerevisiae growth curve but still preserving the fluorescence EGFP. Conclusions The expression of the EGFP modified protein in S. cerevisiae is not affected by the addition of arginine.