İlyas Atalar scite author profile

The microbiological and chemical characteristics as well as organic and amino acid profiles of kefir samples made from cow and buffalo milks fermented by kefir grains and starter culture were investigated during storage for 21 d at 4°C. After incubation, lactic, acetic, and citric acid concentrations showed a difference among the samples due to milk type and production methods. Storage time had little effect on the organic acid values of kefir samples. As compared with cow milk kefir, buffalo milk kefir had higher numbers of microorganisms, except lactobacilli, at the end of storage. Whereas pH and titratable acidity exhibited similar changes during storage in all kefir samples, ethanol levels were significantly increased in buffalo milk kefir samples. Glutamic acid was the major amino acid at all sampling times for all samples. Tyrosine, serine, histidine, alanine, methionine, and lysine concentrations were determined to be different in all samples depending on milk type. In general, due to the higher microbial population (especially yeast), kefir made from buffalo milk may be preferred.

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Effects of quince seed on the rheological, structural and sensory characteristics of ice cream

Kurt

Atalar

2018

Food Hydrocolloids

102

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Rheological, textural, colour and sensorial properties of kefir produced with buffalo milk using kefir grains and starter culture: A comparison with cows’ milk kefir

Gül

Atalar

Mortaş

et al. 2018

Int J of Dairy Tech

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The aim of this study was to compare the rheological, textural, colour and sensory properties of kefir samples produced with buffalos' or cows' milk using two different microbial fermentation sources, namely kefir grains and starter cultures. The buffalo milk kefir had a higher exopolysaccharide content than the cows' milk kefir, and the use of buffalo milk for kefir production had positive effects on the water-holding capacity and firmness value of the resulting kefir samples. The buffalo milk kefir samples had higher viscosity, a higher consistency index, storage and loss modulus values when compared to samples made with cows' milk. The sensory evaluation and colour properties of the kefir samples improved when buffalo milk was used.

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Effect of high pressure homogenization (HPH) on functional and rheological properties of hazelnut meal proteins obtained from hazelnut oil industry by-products

Sarıcaoğlu

Gül

Beşir

et al. 2018

Journal of Food Engineering

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Effect of ultrasound treatment on the properties of nano-emulsion films obtained from hazelnut meal protein and clove essential oil

Gül

Sarıcaoğlu

Beşir

et al. 2018

Ultrasonics Sonochemistry

116

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Hazelnut meal protein (4% (w/v)) and clove essential oil (CEO) (3% (v/v)) were homogenized with ultrasound (US) at different times (2, 4 and 6 min) and amplitudes (50, 75 and 100%) to obtain nano-emulsion films. Film forming nano-emulsions (FFNs) were analyzed for average particle size (D) and zeta potential, and edible film characterization were evaluated depending on US treatment, as well as antibacterial and antioxidant activities. D values and zeta potential of FFNs decreased with increasing acoustic energy delivered to nano-emulsion system. Thickness and water solubility of films significantly decreased with increasing US treatment. Films became more transparent depending on US treatment probably due to particle size reduction. Tensile strength (TS) of films significantly increased with US treatment, while elongation at break (EAB) slightly increased. Microstructure of films became more homogeneous after US treatment and caused to lower water vapor permeability. Enrichment with CEO has given the films antibacterial activity against L. monocytogenes, B. subtilis, S. aureus, P. aeruginosa and E. coli, and antioxidant activity, and US application has improved these activities. US technology can be used to improve mechanical, barrier and antimicrobial properties of hazelnut meal protein based edible films enriched with CEO.

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İlyas Atalar

Manufacture and characterization of kefir made from cow and buffalo milk, using kefir grain and starter culture

Effects of quince seed on the rheological, structural and sensory characteristics of ice cream

Rheological, textural, colour and sensorial properties of kefir produced with buffalo milk using kefir grains and starter culture: A comparison with cows’ milk kefir

Effect of high pressure homogenization (HPH) on functional and rheological properties of hazelnut meal proteins obtained from hazelnut oil industry by-products

Effect of ultrasound treatment on the properties of nano-emulsion films obtained from hazelnut meal protein and clove essential oil

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