Volpe L., Salamone M., Giardina A., Ghersi G., 2016, Optimization of a Biotechnological Process for Production and Purification of Two Recombinant Proteins: Col G and Col H, Chemical Engineering Transactions, 49, 61-66.
Different strategies can be used for increasing production of heterologous recombinant proteins in Escherichia coli. Protein size is often critical for obtaining the best quantity/quality ratio of recombinant protein expression. This study focuses on two recombinant proteins; Class I and class II Collagenases, namely Col G and Col H. Their size is about 140 KDa each. We have developed a method to obtain high levels of cell growth and intracellular expression of each Collagenases in recombinant E. coli BL21(DE3). Batch and Fed-batch fermentation procedures have been performed. Results show that Fed-batch technique was most effective in obtaining the highest cell density for each recombinant bacteria; 14/20 gr/l. We also investigated how to optimize recombinant protein expression; best results were obtained when “multiple shot IPTG induction system” was chosen instead of canonical single shot. By applying a purification protocol based on the use of tangential flow filtration and affinity chromatography we were able to obtain the highest quantity of purified protein: about 8.2 gr for Col G and about 7.2 for Col H fermentations. Moreover, by using a stainless steel cooling coil system, we have investigated the effects of low temperature (7°C) during the whole purification process. This system, allowed us to improve the final enzymatic activity of both Collagenases, obtaining 2 fold increase values when measured with Pz Grassmann assay. This study shows that, even when the size of a recombinant protein is limiting, is possible to apply a defined Fed-batch protocol to obtain a very high protein production. Moreover these results ca be used as a scale up starting step for industrial production and purification of these kind of recombinant en