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Cassava starch fermentation pattern ofRhizopus oligosporus (1988)

Sukara, E. ; Doelle, H. W.

Springer

World journal of microbiology and biotechnology 4 (1988), S. 463-471

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ISSN: 1573-0972

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Process Engineering, Biotechnology, Nutrition Technology

Description / Table of Contents: Résumé On a fait croîtreRhizopus oligosporus UQM 145 F sur un milieu à base d'amidon de manioc sans traitement préalable de l'amidon. Le profil de fermentation parR. oligosporus apparaît être influencé de manière significative par la composition du milieu, le pH de la culture en croissance et la taille de l'inoculum de spores. En variant les concentrations en carbone, en azote et en sels minéraux, on remarque la prédominance tantôt de la protéine unicellulaire, tantôt de l'accumulation de glucose. Un accroissement en concentration conduit à des valeurs plus élevées de la biomasse mais en une moindre production de protéines. Ces observations ont abouti à une nouvelle formulation du milieu avec pour résultat une utilisation à 82.9% de l'amidon de manioc et un rendement vrai en protéines de 5.32 g/100 g de substrat initial. La réponse deR. oligosporus aux composés inorganiques comme le sulfate d'ammonium, l'uréi, le chlorure de sodium et le sulfate de magnésium sont indicateurs d'un système très intéressant de contrôle de la fermentation.

Abstract: Resumen Rhizopus oligosporus UQM 145F se hizo crecer en un medio a base de almidón de casava sin que hubiera pasado por un tratamiento previo con almidón. Se demostró que el patrón de fermentación seguido porRh.oligosporus estaba significativamente influenciado por: la composición del medio, su pH y el tamaño del inóculo. Al variar las concentraciones de carbono, nitrógeno y sales minerales se observó que predominaba la acumulación de glucosa o bien la producción de proteínas unicelulares. Un incremento en la fuente de carbono aumentó la biomasa pero disminuyó el ritmo de producción de proteínas. Estas observaciones permitieron elaborar un nuevo medio de cultivo que resultó en la utilización del 82.9% del almidón de casava con un rendimiento en proteínas de 5.32 g/100 g de sustrato inicial. La respuesta deRh. oligosporus a compuestos inorgánicos como sulfato amónico, urea, cloruro sódico y sulfato magnésico indican la existencia de un sistema de control de la fermentación muy interesante.

Notes: Summary Rhizopus oligosporus UQM 145F was grown on cassava starch medium without a preliminary treatment of starch. The fermentation pattern ofR. oligosporus is shown to be influenced significantly by the medium composition, pH of the growth culture and the size of the spore inoculum. By varying the carbon, nitrogen and mineral salt concentrations, it was found that either glucose accumulated due to excess hydrolysis of starch or single cell protein production became dominant. In the case of the carbon source, increases in the concentration of starch led to higher biomass values, but lower rates of protein production. These observations led to a new formulated medium, resulting in an 82.9% cassava starch utilization and a true protein yield of 5.32 g/100 g initial substrate. The response ofR. oligosporus to inorganic compounds such as (NH4)2SO4, urea, NaCl and MgSO4 indicates an interesting fermentation control system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00940173

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Optimization of single cell protein production from cassava starch (Rhizopus oligosporus) (1989)

Sukara, E. ; Doelle, H. W.

Berlin : Wiley-Blackwell

Acta Biotechnologica 9 (1989), S. 99-110

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ISSN: 0138-4988

Keywords: Life Sciences ; Life Sciences (general)

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Process Engineering, Biotechnology, Nutrition Technology

Notes: The fermentation pattern of cassava starch utilization was investigated at 37°C using Rhizopus oligosporus UQM 145 F and eight different media. Depending on the medium used, the addition of zinc or zinc plus iron to a combination of calcium plus manganese switches the fermentation from glucose accumulation to biomass (single cell protein) production. Complete starch hydrolyzation was obtained in both cases, with a complete glucose utilization resulting in 24 g biomass containing 30% true protein per 100 g cassava starch (= 7.45 g SCP/100 g substrate) in 24 hours. In the case of glucose accumulation, biomass was kept low and 15.5 g/l glucose representing 57.3% of starch supplied were obtained in 36 hours. R. oligosporus UQM 145 F grows well between 30° and 45°C. At 45°C and pH 5.0, 7.0 g SCP/100 g substrate were obtained, which rose to 8.6 g if cassava starch is replaced by ground cassava tuber.

Additional Material: 3 Ill.