Synthesis of the Human Insulin Gene: Protein Expression,Scaling Up and Bioactivity |
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| Authors: | El‐Rashdy M. Redwan Saleh M. Matar Gamal Abd El‐Aziz Ehab A. Serour |
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| Affiliation: | 1. Antibody Laboratory, Protein Research , Genetic Engineering and biotechnology Research Institute, Mubarak City for Scientific Research and Technology Applications , Alexandria, Egypt;2. Bioprocess Technology Departments , Genetic Engineering and biotechnology Research Institute, Mubarak City for Scientific Research and Technology Applications , Alexandria, Egypt |
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| Abstract: | ![]()
Abstract Optimized Synthetic human insulin gene was preferred to easy of cloning, plasmid stability, and protein expression away from the native sequence and its rare codons. Two steps to obtain the insulin, so we assembled the gene of 293 bp using a battery of overlapped synthetic oligos, then cloned into pET101directional TOPO expression vector downstream to the T7 promoter. The proinsulin products were produced as inclusion bodies in E. coli at a level of 10%. The batch cultivation of the strain yielded 6 g/L, while the high cell density of fed‐batch cultivation yielded 46 g/L. The proinsulin purification yielded 110 mg/gram cell weight, and 1.3 mg/gram of a bioactive insulin. The native insulin was generated by enzymatic conversion of chemically processed proinsulin. The produced insulin was matched with that of a commercial aqueous version at a level of enzyme immunoassys, SDS‐PAGE, RP‐HPLC, and bioactivity. The present results showed that the produced insulin has a comparable biochemical and potency similar to that of commercial one. |
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| Keywords: | Human insulin gene Codons optimization Directional expression Scaling up Fed‐batch |
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