Mustapha Mbye scite author profile

Probiotics are defined as live microorganisms that improve the health of the host when administered in adequate quantities. Nonetheless, probiotics encounter extreme environmental conditions during food processing or along the gastrointestinal tract. This review discusses different environmental stresses that affect probiotics during food preparation, storage, and along the alimentary canal, including high temperature, low temperature, low and alkaline pH, oxidative stress, high hydrostatic pressure, osmotic pressure, and starvation. The understanding of how probiotics deal with environmental stress and thrive provides useful information to guide the selection of the strains with enhanced performance in specific situations, in food processing or during gastrointestinal transit. In most cases, multiple biological functions are affected upon exposure of the cell to environmental stress. Sensing of sublethal environmental stress can allow for adaptation processes to occur, which can include alterations in the expression of specific proteins.

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The effects of camel chymosin and Withania coagulans extract on camel and bovine milk cheeses

Mbye

Mohamed

Raziq

et al. 2021

Sci Rep

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Withania coagulans (W. coagulans) extract and camel chymosin have aspartic protease capable of coagulating milk for cheese production. This study investigated the quality of camel and bovine milk cheeses coagulated using Withania extracts, came chymosin, and their mixture in two experiments. In Experiment (1), a factorial design with four factors (W. coagulans, camel chymosin, incubation time, and incubation temperature) was performed. The effect of these factors on cheese’s yield and hardness were assessed. An enzyme concentration corresponding to a 36 µg/L of milk of W. coagulans, 50 IMCU/L of camel chymosin, holding time of 4 h, and incubation temperature of 60 °C provided the optimal textural hardness for both camel and bovine milk cheeses. Seven treatments were analyzed in experiment (2) were analyzed for physicochemical properties, yield, and sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS-PAGEitation). The results showed that pure Withania extract exhibited the lower coagulating effect resulting in cheeses with low yield, hardness, fat, protein, and total solids. The SDS-PAGE electropherograms of camel cheese showed several low molecular weight bands as compared to bovine cheese. This phenomenon is due to excessive proteolysis in camel cheese, which we believed is caused by the presence of endogenous enzymes.

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Effects of Pasteurization and High-Pressure Processing of Camel and Bovine Cheese Quality, and Proteolysis Contribution to Camel Cheese Softness

et al. 2021

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The effects of high-pressure processing (HPP) compared to thermal treatments on the quality of camel vs. bovine cheeses were studied. The study showed that camel milk has a lower microbial load compared to bovine milk, which is maintained during 7 days' storage of the processed milk. The effect of three HPP treatments (350, 450, and 550 MPa for 5 min at 4°C) and two pasteurization treatments (65°C for 30 min and 75°C for 30 s) on the quality of soft unripened camel and bovine milk cheeses were accessed. The cheeses were evaluated for pH, yield, proximate composition, textural and rheological properties, microstructure, and protein profile by SDS-PAGE electrophoresis. The effects of the treatments on cheese's hardness were different between the camel and bovine cheeses; while heat treatment at 65°C for 30 min gave the hardest bovine milk cheese (1,253 ± 20), HPP treatment at 350 MPa for 5 min gave the highest value for camel milk cheese (519 ± 5) (p < 0.05). The hardness of the cheeses was associated with low yield and moisture content. SDS-PAGE electrophoresis revealed that extensive proteolysis might have contributed to the softness of camel cheeses compared to bovine and suggested the involvement of some residual enzyme activities.

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Rheological characteristics and consumer acceptance of camel milk yogurts as affected by bovine proteins and hydrocolloids

Sobti

Mbye

Alketbi

et al. 2020

International Journal of Food Properties

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This study evaluated the effects of added casein (CN), whey proteins (WPs), calcium chloride (CaCl 2), and a hydrocolloid [gum arabic (GA), gelatin (GL), sodium alginate (ALG), or pectin (PC)] on the quality of camel milk yogurts. Maximum viscosity was achieved with 4% WP and 2% CN. Addition of CaCl 2 , GA, and GL negatively affected the viscosity/rheology of WP/CN-fortified yogurts while ALG and PC had positive effects. Syneresis was highest in yogurts containing WP/CN and was reduced with the addition of hydrocolloids in the order GA

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The Texture of Camel Milk Cheese: Effects of Milk Composition, Coagulants, and Processing Conditions

et al. 2022

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Numerous people in African, Middle Asian, Middle Eastern, and Gulf Cooperation Council (GCC) countries highly value camel milk (CM) as it plays a vital role in their diet. The protein composition of CM as well as the structure of its casein micelles differs significantly from bovine milk (BM). Cheeses made from CM have a weak curd and soft texture compared to those made from BM. This review article presents and discusses the effect of milk protein composition, processing conditions (pasteurization and high-pressure treatment), and coagulants (camel chymosin, organic acids, plant proteases) on the quality of CM cheeses. CM cheese's weak texture is due to compositional characteristics of the milk, including low κ-casein-to-β-casein ratio (≈0.05 in CM vs. ≈0.33 in BM), large micelle size, different whey protein components, and higher proteolytic activity than BM. CM cheese texture can be improved by preheating the milk at low temperatures or by high pressure. Supplementing CM with calcium has shown inconsistent results on cheese texture, which may be due to interactions with other processing conditions. Despite their structure, CM cheeses are generally well liked in sensory studies.

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Caseins: Versatility of Their Micellar Organization in Relation to the Functional and Nutritional Properties of Milk

et al. 2023

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The milk of mammals is a complex fluid mixture of various proteins, minerals, lipids, and other micronutrients that play a critical role in providing nutrition and immunity to newborns. Casein proteins together with calcium phosphate form large colloidal particles, called casein micelles. Caseins and their micelles have received great scientific interest, but their versatility and role in the functional and nutritional properties of milk from different animal species are not fully understood. Caseins belong to a class of proteins that exhibit open and flexible conformations. Here, we discuss the key features that maintain the structures of the protein sequences in four selected animal species: cow, camel, human, and African elephant. The primary sequences of these proteins and their posttranslational modifications (phosphorylation and glycosylation) that determine their secondary structures have distinctively evolved in these different animal species, leading to differences in their structural, functional, and nutritional properties. The variability in the structures of milk caseins influence the properties of their dairy products, such as cheese and yogurt, as well as their digestibility and allergic properties. Such differences are beneficial to the development of different functionally improved casein molecules with variable biological and industrial utilities.

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Perceptions of midwife support during labour and delivery in Gambia

Mbye¹,

Tsay²,

Kao³

et al. 2011

African Journal of Midwifery and Women's Health

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This study was conducted to investigate women's perceptions of the support given by midwives during labour and delivery in Gambia, and to compare the results with the perceptions reported in similar studies undertaken in other countries and ethnic groups. In 2009, a total of 120 women were recruited with a purposive sampling method from five public health facilities in the western region of the Gambia. The Bryanton Adaptation of Nursing Support in Labour Questionnaire (BANSILQ) was applied to measure various nursing-support behaviours. Results reveal that study participants valued all the categories of nursing support during labour and delivery. Overall, emotional support was valued as the most helpful during childbirth and informational support was reported as being less helpful. The results of this study were contrasted with those of previous studies into different ethnic populations which also applied the BANSILQ to survey the women's perceptions. Further consideration of the pathways in this web of causation would provide key information which could have significant implications for the future of midwifery education and practice.

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Mustapha Mbye

Physicochemical properties, sensory quality, and coagulation behavior of camel versus bovine milk soft unripened cheeses

Updates on understanding of probiotic lactic acid bacteria responses to environmental stresses and highlights on proteomic analyses

The effects of camel chymosin and Withania coagulans extract on camel and bovine milk cheeses

Effects of Pasteurization and High-Pressure Processing of Camel and Bovine Cheese Quality, and Proteolysis Contribution to Camel Cheese Softness

Rheological characteristics and consumer acceptance of camel milk yogurts as affected by bovine proteins and hydrocolloids

The Texture of Camel Milk Cheese: Effects of Milk Composition, Coagulants, and Processing Conditions

Caseins: Versatility of Their Micellar Organization in Relation to the Functional and Nutritional Properties of Milk

Perceptions of midwife support during labour and delivery in Gambia

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