| Autor: |
Vemula S; a Centre for Bioprocess Technology, Department of Biotechnology , K. L. E. F. University , Guntur , Andhra Pradesh , India., Vemula S; b Department of Pharmacology, Kakatiya University , Warangal , Andhra Pradesh , India., Dedaniya A; a Centre for Bioprocess Technology, Department of Biotechnology , K. L. E. F. University , Guntur , Andhra Pradesh , India., Kante RK; a Centre for Bioprocess Technology, Department of Biotechnology , K. L. E. F. University , Guntur , Andhra Pradesh , India., Ronda SR; a Centre for Bioprocess Technology, Department of Biotechnology , K. L. E. F. University , Guntur , Andhra Pradesh , India. |
| Abstrakt: |
The Fourier-transform infrared (FT-IR) spectroscopic approach has been employed to understand the recombinant human G-CSF (rhG-CSF) protein accumulation, secondary structure, and thermal stability in Escherichia coli grown under a temperature shift strategy (37 and 28°C) in various media formulations. The choline + sodium pyruvate (37°C) and sodium pyruvate (28°C) formulations have shown the highest inclusion body (IB) accumulation of 0.41 and 0.46 mg/mL, respectively. Furthermore, insights on the structure of the rhG-CSF within IBs and intact cells have been investigated through secondary structure analysis. Thermal stability experiments were also carried out to explain the pattern of the second derivative structure of rhG-CSF. The studies showed that choline + sodium pyruvate formulation has preserved the protein secondary structure even at 82°C. Overall, the FT-IR spectroscopic technique can also be adopted to accelerate the characterization of other recombinant therapeutic proteins of E. coli origin. |
