Browsing by Author "Naimi-Fazouane, Fethia"

Filter results by typing the first few letters
Now showing 1 - 2 of 2
  • No Thumbnail Available
    Item
    Factors affecting acid protease production by Mucor circinelloides MG603064.1 through SmF process: characterization and fromage frais making
    (BioTechnologia, 2023) Bensmail, Souhila; Boudjema, Khaled; Naimi-Fazouane, Fethia; Bensmail, Samira; Djouahra-Fahem, Djamila; Ferhoum, Fatiha; Bourfis, Nassima
    The exploitation of food industry wastes and their conversion into value-added products present a promising and continuously growing field, given the diversity of elaborated wastes. The current work aimed to utilize sweet cheese whey as a growth medium for acid protease production by a local fungus strain. The biochemical and physicochemical properties of the cheese whey, such as pH, conductivity, chemical oxygen demand, biological oxygen demand (BOD5), total nitrogen and protein contents, and mineral salts, were assessed using various analytical methods. The effect of certain parameters on acid protease production by Mucor circinelloides MG603064.1 through the SmF process was investigated using the conventional design method "One factor at a time". Subsequent to characterization, the crude extract was used in a trial to create fromage frais, compared to the commercial rennin CHY-MAX® Powder Extra. Cheese whey characterization revealed its richness in total nitrogen (1.044 ± 0.044 g/l), protein content (6.52 ± 0.04 g/l), and principal mineral salts: calcium (1.637 ± 0.037 g/l), phosphorus (1.173 ± 0.023 g/l), and chloride (1.66 ± 0.09 g/l). The optimal values of the SmF process for acid protease production, such as the inoculum size, beef extract, and KH2PO4 supplements, the initial pH of cheese whey, and incubation temperature were, respectively, 11% (v/v), 0.4% (w/v), 0.5% (w/v), 5.5, and 30°C. Under these conditions, the lowest milk-clotting time of 290 s was achieved, representing an 18.41-fold increase compared to the initial step using the unoptimized medium. The enzyme showed maximum milk-clotting activity at pH 5, a temperature of 60°C, and in the presence of 0.025 M of CaCl2. The enzyme activity also significantly improved with sonication (35 kHz) for 10 min. The crude extract of M. circinelloides ensured the production of fresh cheese samples with characteristics roughly similar to those obtained by the control (CHY-MAX® rennin). The acid protease of M. circinelloides could successfully substitute the conventional rennin in the manufacture of fresh cheese.
  • No Thumbnail Available
    Item
    Production of Extracellular Rennin-Like Enzyme by a Newly Isolate Mucor circinelloides (von Tieghem) and its Application in Camembert Cheese Making
    (Baqiyatallah University of Medical Sciences, 2020) Bensmail, Souhila; Boudjema, Khaled; Naimi-Fazouane, Fethia
    Introduction: Aspartic proteases produced by different non-pathogenic fungi belonging to mucorales, are commonly used as milk-coagulants. The present study aims to optimize conditions for milk-clotting protease production by a new strain of Mucor genus and to assess its ability in soft cheese making. Materials and Methods: About 20 fungal strains isolated from soil were investigated for their potential to produce milk-clotting proteases for further applications in cheese making. The hyper producer strain Mucor circinelloides 2095-2047 was selected for optimization of rennin-like enzyme production under solid-state fermentation (SSF) using the stepwise modifications of the selected parameters. The enzyme produced under the optimal conditions was partially purified and then applied in Camembert cheese making trials compared to the crude extract and commercial rennet. Results: The maximum milk-curdling activity achieved after optimization (571.43 SU/mL) was obtained using wheat bran (10 g) as the mainly source of carbon containing 1% galactose; moistened with the M-9 solution (pH 6.0) and incubated at 30°C for 96 hours. The enzyme of M. circinelloides was partially purified with a high recovery of 105% and 6.23-fold purity after (NH4)2SO4 fractionation and dialysis. The physicochemical properties of the three produced cheeses were very close. A low sensory quality of cheese was obtained with the crude extract which was getting better using the pre-purified enzyme. This extract was able to develop a very close or even a similar sensory quality to that obtained by the commercial rennet. Conclusions: According to findings, it is possible to propose the purified enzyme of M. circinelloides as a new alternative for rennet, but further optimization, purification and cheese production tests are required. © 2020 The Author(s)