Enzymatically Hydrolysed Molasses and Sodium Citrate as New Potentials for the Improvement of Canthaxanthin Batch Synthesis by Dietzia natronolimnaea HS-1: A statistical Media Optimisation

Gharibzahedi, S.M.T., University of Tehran . Dept. of Food Science, Engineering and Technology; Razavi, S.H., University of Tehran . Dept. of Food Science, Engineering and Technology; Mousavi, M., University of Tehran . Dept. of Food Science, Engineering and Technology

Enzymatically Hydrolysed Molasses and Sodium Citrate as New Potentials for the Improvement of Canthaxanthin Batch Synthesis by Dietzia natronolimnaea HS-1: A statistical Media Optimisation

2014

Gharibzahedi, S.M.T., University of Tehran (Iran). Dept. of Food Science, Engineering and Technology | Razavi, S.H., University of Tehran (Iran). Dept. of Food Science, Engineering and Technology | Mousavi, M., University of Tehran (Iran). Dept. of Food Science, Engineering and Technology

Response surface methodology-central composite rotatable design (RSM-CCRD) was applied to explore the optimum media formulation for maximising canthaxanthin (CTX) biosynthesis by Dietzia natronolimnaea HS-1. The effects of three variables of enzymatically hydrolysed molasses (EHM) (16.6-33.4 g/l), sodium (Na)-citrate (21.64-28.36mM), and yeast extract (6.32-9.68 g/l) concentrations on the production of CTX, total carotenoid (TCT), and biomass dry weight (BDW) were appraised. The results showed that the quadratic effects of EHM, yeast extract, and Na-citrate contents in terms of second-order polynomial regression equations (R2 = 0.968-0.986), respectively, had the most significant effects on the produced TCT and CTX. The predicted maximum accumulation of BDW (8.88 g/l), TCT (7.24 mg/l), and CTX (6.40 mg/l) under the optimum concentrations of the media variables (26.16 g/l EHM, 8.29 g/l yeast extract, and 25.86mM Na-citrate) was very close to the experimental values determined in batch experiments. The high BDW content suggested EHM and Na-citrate as very promising feedstocks for CTX bioproduction by the bacterium studied.

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AGROVOC Keywords

absorbance absorbancia analytical methods bacteria gram negativa biological production biomasa biomass biomasse biosynthese biosynthesis carotenoide carotenoides carotenoids colorant colorantes crecimiento croissance culture media dyes enzymatic hydrolysis espectrometria experimental design experimental infection extraction growth hydrolyse enzymatique mathematical models medio de cultivo melasse melaza milieu de culture molasses natural resources peso pigment pigmentos pigments poids production biologique recursos naturales ressource naturelle solute solutes soluto sous-produit de sucrerie spectrometrie spectrometry technique analytique weight

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Published in

Czech Journal of Food Sciences (Czech Republic)

Volume 32 Issue 4 ISSN 1212-1800

Pagination

pp. 326-336

Other Subjects

Biosintesis; Tecnicas analiticas; Modelos matematicos; Produccion biologica; Extraccion; Bacterie gram negatif; Gram negative bacteria; Dispositif experimental; Infection experimentale; Hidrolisis enzimatica; Sugar byproducts; Infeccion experimental; Diseno experimental; Subproductos del azucar; Modele mathematique

Language

English

Type

Summary

In AGRIS since: 2016-03-15

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Enzymatically Hydrolysed Molasses and Sodium Citrate as New Potentials for the Improvement of Canthaxanthin Batch Synthesis by Dietzia natronolimnaea HS-1: A statistical Media Optimisation

2014

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