Textural properties of low-fat set-type yoghurt depending on mTG addition

Darnay, Lívia; Koncz, A.; Gelencsér, É.; Pásztor-Huszár, Klára; Friedrich, László

doi:10.15567/mljekarstvo.2016.0307

Cited by 4 publications

(3 citation statements)

References 10 publications

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“…bulgaricus (Gharibzahedi & Chronakis, 2018). The most concentrated yoghurt is obtained through modifications of traditional manufacturing processes where it is possible to remove part of the acidic whey from the solid part or addition different components (Aprodu et al, 2012;Darnay et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

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Caracterization and optimization of nonfat yogurt based on texture properties: instrumental texture profile and rheological properties

Batista

Silva

Dias³

et al. 2022

RSD

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Milk fat plays an important role in the texture of yogurt. Thus, producing fat-free yogurt is a challenge for the food industry. We investigated and modeled the effect of yogurt composition and process parameters on the texture properties obtained by analyzing the texture profile analysis (TPA) and on the rheological properties. The experiment followed the Box-Behnken (DBB) design with three factors: centrifuge rotational speed (CRS) (3000, 4250 and 5500 rpm), casein (Cas) (3.4, 4.9 and 6.4% p/v) and transglutaminase enzyme (TgE) (0, 1 and 2 U/g of protein) concentrations. A complete second-order model better explained the effect of factors on texture properties. Desirability function was selected for the optimization of responses (firmness, cohesiveness and apparent viscosity placed at a maximum level and adhesiveness, gumminess, thixotropy and loss tangent (tan δ) were placed at a minimum level). The results suggest that the addition of TgE showed less effect on texture properties. The optimized values of each factor, Cas, TgE and CRS were, respectively, 3.4%, 1 U/g of protein and 5500 rpm with general desirability (D) of 0.6531. Under these conditions, it is possible to prepare a concentrated fat-free yogurt with a higher protein content due to the concentration, obtained after centrifugation, as well as obtaining desirable texture characteristics such as greater firmness and consistency, low gumminess and adhesiveness.

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Section: Introductionmentioning

confidence: 99%

“…This enzyme is produced by specific microorganisms and improves the desirable characteristics in the product, such as increased viscosity and consistency (Macedo & Sato, 2005). Some works relating the influence of TgE on the texture properties of yoghurts are found in literature (Darnay et al, 2016;Gauche et al, 2009;Iličić et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Caracterization and optimization of nonfat yogurt based on texture properties: instrumental texture profile and rheological properties

Batista

Silva

Dias³

et al. 2022

RSD

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“…Many techniques have been explored in this regard involving small-angle neutron scattering [7], enzymatic hydrolysis, and assessment of physical parameters [8]. One of the most common approaches for the determination of probiotic activity is to look for specific genes or test the survival ability and resistance to a low pH environment [4].…”

Section: Introductionmentioning

confidence: 99%

Electronic Nose for Monitoring Odor Changes of Lactobacillus Species during Milk Fermentation and Rapid Selection of Probiotic Candidates

Kovács

Bodor

Zaukuu

et al. 2020

Foods

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Probiotic bacteria have been associated with a unique production of aroma compounds in fermented foods but rapid methods for discriminating between foods containing probiotic, moderately probiotic, or non-probiotic bacteria remain aloof. An electronic nose (e-nose) is a high-sensitivity instrument capable of non-invasive volatile measurements of foods. In our study, we applied the e-nose to differentiate probiotic, moderately probiotic, and non-probiotic Lactobacillus bacteria strains at different fermentation time points (0th, 4th, and 11th) of milk fermentation. The pH of the changing milk medium was monitored with their corresponding increase in microbial cell counts. An e-nose with two gas chromatographic columns was used to develop classification models for the different bacteria groups and time points and to monitor the formation of the aromatic compounds during the fermentation process. Results of the e-nose showed good classification accuracy of the different bacteria groups at the 0th (74.44% for column 1 and 82.78% for column 2), the 4th (89.44% for column 1 and 92.22% for column 2), and the 11th (81.67% for column 1 and 81.67% for column 2) hour of fermentation. The loading vectors of the classification models showed the importance of some specific aroma compounds formed during the fermentation. Results show that aroma monitoring of the fermentation process with the e-nose is a promising and reliable analytical method for the rapid classification of bacteria strains according to their probiotic activity and for the monitoring of aroma changes during the fermentation process.

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Crosslinking of milk proteins by microbial transglutaminase: Utilization in functional yogurt products

Gharibzahedi

Chronakis

2018

Food Chemistry

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Textural properties of low-fat set-type yoghurt depending on mTG addition

Cited by 4 publications

References 10 publications

Caracterization and optimization of nonfat yogurt based on texture properties: instrumental texture profile and rheological properties

Caracterization and optimization of nonfat yogurt based on texture properties: instrumental texture profile and rheological properties

Electronic Nose for Monitoring Odor Changes of Lactobacillus Species during Milk Fermentation and Rapid Selection of Probiotic Candidates

Crosslinking of milk proteins by microbial transglutaminase: Utilization in functional yogurt products

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