Débora Brand scite author profile

Studies were carried out to evaluate solid-state fermentation (SSF) for the upgradation of the nutritional quality of coffee husk by degrading the caffeine and tannins present in it. SSF was carried out by Aspergillus niger LPBx in a glass column fermenter using factorial design experiments and surface response methodology to optimize bioprocess parameters such as the substrate pH and moisture content and aeration rate. The first factorial design showed that the moisture content of the substrate and aeration rate were significant factors for the degradation of toxic compounds, which was confirmed by the second factorial design too. The kinetic study showed that the degradation of toxic compounds was related to the development of the mold and its respiration and also to the consumption of the reducing sugars present in coffee husk. From the values obtained experimentally for the oxygen uptake rate and CO(2) evolved, the system determined a biomass yield (Y(x/o)) of 3.811 (g of biomass).(g of consumed O(2))(-1) and a maintenance coefficient (m) of 0.0031 (g of consumed O(2)).(g biomass of biomass)(-1).h(-1). The best results on the degradation of caffeine (90%) and tannins (57%) were achieved when SSF was carried out with a 30 mL.min(-1) aeration rate using coffee husk having a 55% initial moisture content. The inoculation rate did not affect the metabolization of the toxic compounds by the fungal culture. After SSF, the protein content of the husk was increased to 10.6%, which was more than double that of the unfermented husk (5.2%).

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Spore production of Beauveria bassiana from agro-industrial residues

Santa

Brand

et al. 2005

Braz. arch. biol. technol.

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The uptake of different iron salts by the yeast Saccharomyces cerevisiae

Gaensly¹,

Picheth²,

Brand³

et al. 2014

Braz. J. Microbiol.

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Iron enriched Saccharomyces cerevisiae maintains its fermenting power and bakery properties

Gaensly¹,

Wille²,

Brand³

et al. 2011

Ciênc. Tecnol. Aliment.

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Development of a Bionematicide With <I>Paecilomyces lilacinus</I> to Control <I>Meloidogyne incognita</I>

Brand

Roussos

Pandey

et al. 2004

ABAB

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Root-knot disease caused by Meloidogyne incognita is a matter of grave concern because it affects several economically important crop plants. The use of solid-state fermentation (SSF) may help to elaborate efficient formulations with fungi to be employed in the biologic control of nematodes. Attempts were made to select low-cost substrates for spore production of a strain of Paecilomyces lilacinus with known nematicide capacity. Coffee husks, cassava bagasse, and defatted soybean cake were utilized as substrates, and sugarcane bagasse was used as support. Fermentations were carried out in flasks covered with filter paper at 28 degrees C for 10 d. The products obtained by SSF were evaluated for their nematicide activity in pot experiments containing one seedling of the plant Coleus inoculated with the nematode M. incognita. The plants were evaluated 2 mo after inoculation. Fermented products showed a reduction in the number of nematodes. The best results were obtained with defatted soybean cake, which showed almost 100% reduction in the number of nematodes; the reduction with coffee husk was 80% and with cassava bagasse was about 60%.

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Débora Brand

Biotechnological potential of coffee pulp and coffee husk for bioprocesses

Biological detoxification of coffee husk by filamentous fungi using a solid state fermentation system

Relation between growth, respirometric analysis and biopigments production from Monascus by solid-state fermentation

Packed Bed Column Fermenter and Kinetic Modeling for Upgrading the Nutritional Quality of Coffee Husk in Solid-State Fermentation

Spore production of Beauveria bassiana from agro-industrial residues

The uptake of different iron salts by the yeast Saccharomyces cerevisiae

Iron enriched Saccharomyces cerevisiae maintains its fermenting power and bakery properties

Development of a Bionematicide With <I>Paecilomyces lilacinus</I> to Control <I>Meloidogyne incognita</I>

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