Surface response methodology for the optimization of lipase production under submerged fermentation by filamentous fungi

Colla, Luciane Maria; Primaz, Andreiza Lazzarotto; Benedetti, Silvia; Loss, Raquel Aparecida; Lima, Marieli de; Reinehr, Christian Oliveira; Bertolin, Telma Elita; Costa, Jorge Alberto Vieira

Colla, Luciane Maria; Primaz, Andreiza Lazzarotto; Benedetti, Silvia; Loss, Raquel Aparecida; Lima, Marieli de; Reinehr, Christian Oliveira; Bertolin, Telma Elita; Costa, Jorge Alberto Vieira.

Affiliation

Colla, Luciane Maria; University of Passo Fundo. College of Engineering and Architecture. Course of Food Engineering. Passo Fundo. BR
Primaz, Andreiza Lazzarotto; University of Passo Fundo. College of Engineering and Architecture. Course of Food Engineering. Passo Fundo. BR
Benedetti, Silvia; University of Passo Fundo. College of Engineering and Architecture. Course of Food Engineering. Passo Fundo. BR
Loss, Raquel Aparecida; University of Passo Fundo. College of Engineering and Architecture. Course of Food Engineering. Passo Fundo. BR
Lima, Marieli de; University of Passo Fundo. College of Engineering and Architecture. Course of Food Engineering. Passo Fundo. BR
Reinehr, Christian Oliveira; University of Passo Fundo. College of Engineering and Architecture. Course of Food Engineering. Passo Fundo. BR
Bertolin, Telma Elita; University of Passo Fundo. College of Engineering and Architecture. Course of Food Engineering. Passo Fundo. BR
Costa, Jorge Alberto Vieira; University of Passo Fundo. College of Engineering and Architecture. Course of Food Engineering. Passo Fundo. BR

Braz. j. microbiol ; 47(2): 461-467, Apr.-June 2016. tab, graf

Article in En | LILACS | ID: lil-780837

Responsible library: BR1.1

ABSTRACT

ABSTRACT

Abstract A Plackett–Burman Factorial Design of 16 experiments was conducted to assess the influence of nine factors on the production of lipases by filamentous fungi. The factors investigated were bran type (used as the main carbon source), nitrogen source, nitrogen source concentration, inducer, inducer concentration, fungal strain (Aspergillus niger or Aspergillus flavus were selected as good lipase producers via submerged fermentation), pH and agitation. The concentration of the yeast extract and soybean oil and the pH had a significant effect (p < 0.05) on lipase production and were consecutively studied through a Full Factorial Design 23, with the concentration of yeast extract and pH being significant (p < 0.05). These variables were optimized using a central composite design, obtaining maximum lipolytic activities with the use of 45 g/L of yeast extract and pH 7.15. The statistical model showed a 94.12% correlation with the experimental data.

Subject(s)

Aspergillus flavus/metabolism; Aspergillus niger/metabolism; Industrial Microbiology/methods; Fungal Proteins/biosynthesis; Lipase/biosynthesis; Carbon/metabolism; Culture Media/metabolism; Culture Media/chemistry; Fermentation; Nitrogen/metabolism

Key words

Agricultural residues; Lipase; Optimization; Submerged bioprocess

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Full text: 1 Index: LILACS Main subject: Aspergillus flavus / Aspergillus niger / Industrial Microbiology / Fungal Proteins / Lipase Type of study: Prognostic_studies Language: En Journal: Braz. j. microbiol Journal subject: MICROBIOLOGIA Year: 2016 Type: Article

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