Affiliation:
1. Escuela de Ingeniería Química Universidad de Costa Rica San José Costa Rica
2. Centro Nacional de Innovaciones Biotecnológicas (CENIBiot) CeNAT‐CONARE San José Costa Rica
3. Instituto de Investigaciones en Ingeniería Universidad de Costa Rica San José Costa Rica
4. Consiglio Nazionale delle Ricerche Istituto per la Bioeconomia (IBE) Firenze Italy
5. Escola de Química Universidade Federal do Rio de Janeiro Rio de Janeiro Brasil
6. Escuela de Ingeniería Industrial Universidad de Costa Rica San José Costa Rica
Abstract
AbstractPretreated lignocellulosic residues are suitable substrates for cellulases production by filamentous fungi. In the current work, plantain rachis was pretreated with sequential acid and alkali and then used as the main carbon source for cellulases production. First, a full 23 factorial design and response surface methodology (RSM), based on central composite rotatable design (CCRD), were carried out to cellulases production media optimization from plantain rachis by Penicillium oxalicum. The cellulases production was evaluated in flasks and bioreactor scale; in parallel, the addition of possible cellulases inductors was evaluated in flasks: molasses, beer bran, oat bran, and wheat bran. Results from statistical analyses with a level of confidence of 95% demonstrated that the concentration of ammonium sulfate must be kept at 1.625 g/L. The optimum urea and yeast extract concentrations were 0.560 g/L and 0.250 g/L, respectively. Cellulases volumetric productivities were higher in instrumented bioreactor than in flasks: 78.03% for exoglucanase, 10.87% for endoglucanase, 1.58% for β‐glucosidase, and 44.36% for FPU. Therefore, P. oxalicum was able to produce cellulases from plantain rachis in flasks and bioreactor, and molasses was the additional inductor that presented an increment in cellulases activities: endoglucanase 15%, exoglucanase 81%, and β‐glucosidase 55%.