Synthesis, cloning and expression of a novel pre-miniproinsulin analogue gene in Escherichia coli

In the present study, a novel pre-miniproinsulin analogue was designed to have a short 9 residue sequence replacing the 35 residue C-chain, one lysine and one arginine added to the C-terminus of the B-chain in combination with glycine and arginine substitution at A21 and B29, respectively, and a 16-residue fusion partner comprising the pentapeptide sequence (PSDKP) of the N-terminus of human tumor necrosis factor-α (TNF-α), 6 histidine residues for Ni(2+) chelated affinity purification and a pentapeptide ending with methionine for ease of chemical cleavage fused at the N-terminus. Homology modeling of the designed protein against miniproinsulin (protein databank file 1 efeA) as a template showed that the distance between the α-carbons of the C-terminus of the B-chain and the N-terminus of the A-chain did not change; the root-mean-square deviation of the backbone atoms between the structures of modeled miniproinsulin and miniproinsulin template was 0.000 Å. DNA sequencing of the synthesized gene showed 100% identity with theoretical sequence. The gene was constructed taking into account the codon preference of Escherichia coli (CAI value 0.99) in order to increase the expression rate of the DNA in the host strain. The designed gene was synthesized using DNA synthesis technology and then cloned into the expression plasmid pET-24a(+) and propagated in E. coli strain JM109. Gene expression was successful in two E. coli strains: namely JM109(DE3) and BL21(DE3)pLysS. SDS–PAGE analysis was carried out to check protein size and to check and optimize expression. Rapid screening and purification of the resulting protein was carried out by Ni–NTA technology. The identity of the expressed protein was verified by immunological detection method of western blot using polyclonal rabbit antibody against insulin.