IPROBYQ   25157
INSTITUTO DE PROCESOS BIOTECNOLOGICOS Y QUIMICOS ROSARIO
Unidad Ejecutora - UE
congresos y reuniones científicas
Título:
Experimental design, modeling and optimization for isolation of Bromelain from pineapple residues by carrageenan complex formation
Autor/es:
DÉBORA A. CAMPOS; JOSÉ A. TEIXEIRA; LORENZO M. PASTRANA-CASTRO; MANUELA E. PINTADO; EZEQUIEL R. COSCUETA; GUILLERMO A. PICÓ
Lugar:
Buenos Aires
Reunión:
Conferencia; CIPCA VII; 2017
Resumen:
The isolation and purification of bioproducts are very important processes in the biotechnology industry, representing 80?90% of total production costs. Furthermore, the development of simple and viable methods for protein purification has been an essential pre-requisite for many advances in biotechnology (Hari Krishna & Karanth, 2002). Bromelain (BR) is a crude, aqueous extract from the stems and immature fruits of pineapples (Ananas comosus) and can be found in the tissue of plants of the Bromeliaceae family and belongs to cysteine-proteinases family (Rowan, Christopher, Kelley, Buttle, & Ehrlich, 1990). Several processes of extraction were developed, but all with some disadvantage (high cost, low purity, high use of chemical products). From an industrial view (low cost of production) the most suitable was the simplest method; a cooled pineapple juice centrifuged, ultrafiltrated and lyophilized, constituting an unusually complex mixture of different type of compounds, interfering with BR bioavailability. Two types of BR were described, from stem (EC. 3.4.22.32) and from fruit (EC. 3.4.22.33), previously called bromelin (Cooreman, 1978).These group of enzymes offer a wide spectrum of therapeutic efficacies: they demonstrate, in vitro and in vivo, antiedemateous, antiinflammatory, antithrombotic and fibrinolytic activities (Maurer, 2001), increasing the importance of determining a viable extraction and purification method for this enzyme. A new method of purification and isolation of BR was developed, using a natural food safe polysaccharide (carrageenan). Carrageenan (Carr) is derived from certain species of red seaweeds (Rhodophyceae) and shows a wide range of rheological and functional properties. Previous reports have demonstrated the use of this polysaccharide to isolate and immobilize enzymes (Fabian, Sonenberg, & Filipowicz, 2010).Using extracts produced from two types of pineapple residues (stems and peels) complex formation of BR-Carr was studied and improved to obtain an isolate of BR by precipitation. Thus, statistical models designs were created. First, was developed a model to exclude non-influent independent variables and narrow ranges, thus in the initial factorial design (Central Composite Design ? CCD) were studied four independent variables (protein concentration, polysaccharide concentration, pH and time of contact between protein and polysaccharide) described elsewhere (Phillips & Williams, 2009) as influents at protein-polysaccharide complexes formation and three dependents variables evaluated. The independent variables that presented no effect on the responses were eliminated and ranges were optimized for the following statistical designs. Box-Behnken Design (BBD) was the followed statistical model design used to optimize the BR, from each extract. Through the experimental results was possible to concluded that, it was possible to separate and precipitate BR from an aqueous extract maintained its biological activity (yield of enzymatic activity was around 80-90% at precipitate), under a non-soluble complex formation. The statistical models applied determined the optimum of each independent variable of precipitation for each extract.