Oumayma Boukria scite author profile

Among developed countries, bovine milk production makes a major contribution towards the economy. Elevating consumer demand for functional foods has triggered a niche for non-bovine milk-based products. Mixing milks from different species can be a strategy to increase the consumption of non-bovine milk and enable consumers and dairy companies to benefit from their nutritional and technological advantages. Thus, this review aimed to gather the most important research on yoghurts derived from processing mixtures of milks of different species. We discuss the impact of milk mixtures (i.e., species and milk ratio) on nutritional, physicochemical, sensory, rheological and microbiological properties of yoghurts. More specifically, this paper only highlights studies that have provided a clear comparison between yoghurts processed from a mixture of two milk species and yoghurts processed from a single species of milk. Finally, certain limitations and future trends are discussed, and some recommendations are suggested for future research.

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2D-Cross Correlation Spectroscopy Coupled with Molecular Fluorescence Spectroscopy for Analysis of Molecular Structure Modification of Camel Milk and Cow Milk Mixtures during Coagulation

Boukria

Hadrami

Sultanova

et al. 2020

Foods

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Synchronous fluorescence spectroscopy (SFS) coupled with two-dimensional correlation spectroscopy (2DCOS) was employed to monitor, at the molecular level, the coagulation of five mixture ratios of camel’s milk (CaM) and cow’s milk (CM) (100% CaM, 75% CaM:25% CM, 50% CaM:50% CM, 25% CaM:75% CM and 100% CM). The dissimilarities among the different formulations are highlighted on the synchronous 2DCOS-SFS. In addition, according to the cross-peak symbols in synchronous and asynchronous spectra, the rate of response modification in riboflavin, protein and vitamin A matched with common coagulation phenomena usually reported during chymosin coagulation (hydrolysis of κ-casein, destabilization of casein micelles and aggregation). This study demonstrated that 2DCOS-SFS is a successful strategy to discriminate milk mixtures and to monitor molecular structure modifications during coagulation process.

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The Effect of Mixing Milk of Different Species on Chemical, Physicochemical, and Sensory Features of Cheeses: A Review

Boukria

Hadrami

Boudalia

et al. 2020

Foods

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The yield and quality of cheese are associated with the composition, physicochemical, sensory, rheological, and microbiological properties of milk and with the technology applied to the milk before and/or during cheese processing. This review describes the most important research on cheeses obtained from processing mixtures of different milk species and discusses the effect of milk mixtures (i.e., species and mixture ratios) on composition, physicochemical, sensory, rheological, and microbiological properties of cheeses. More specifically, the present review paper will gather and focus only on studies that have provided a clear comparison between cheeses produced from a mixture of two milk species to cheeses produced from only one species.

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Spectroscopic techniques for monitoring changes in the quality of milk and other dairy products during processing and storage

Loudiyi

Temiz

Sahar

et al. 2020

Critical Reviews in Food Science and Nutrition

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Delineation of molecular structure modification during coagulation of mixed camel and cow milk by mid‐infrared spectroscopy and parallel factor analysis

Boukria

Jian

Safarov

et al. 2021

Food Processing Preservation

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It is particularly noted that camel milk (CaM) is of high nutritional quality, for example, it contains three times more Vitamin C, a greater variety of minerals (e.g., K + , Cu 2+ , and Mn 2+ ), and more essential and polyunsaturated fatty acids than cow milk (CM) (Farah et al., 1992;Sawaya et al., 1984).CaM has also been shown to exhibit properties that manage chronic ailments (Khalesi et al., 2017). Regarding this strategy, it is important to characterize the quality features of products made by mixing

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Oumayma Boukria

Biochemical, Physicochemical and Sensory Properties of Yoghurts Made from Mixing Milks of Different Mammalian Species

2D-Cross Correlation Spectroscopy Coupled with Molecular Fluorescence Spectroscopy for Analysis of Molecular Structure Modification of Camel Milk and Cow Milk Mixtures during Coagulation

The Effect of Mixing Milk of Different Species on Chemical, Physicochemical, and Sensory Features of Cheeses: A Review

Spectroscopic techniques for monitoring changes in the quality of milk and other dairy products during processing and storage

Delineation of molecular structure modification during coagulation of mixed camel and cow milk by mid‐infrared spectroscopy and parallel factor analysis

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