Fluorescence spectroscopy: A tool for the investigation 
of cheese melting - Correlation with rheological characteristics

Karoui, Romdhane; Laguet, Arlette; Dufour, Éric

doi:10.1051/lait:2003014

Cited by 53 publications

(45 citation statements)

References 25 publications

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“…The shape of the spectra changes with the manufacturing process of the investigated cheeses. Recently, it has been reported that the shape of the vitamin A excitation spectrum is correlated with the physical state of the triglycerides in the fat globules [14,22,23]. Considering the short distance between tryptophan residues and vitamin A in the cheese matrix, fluorescence transfer between a donor (tryptophan) and an acceptor may be observed.…”

Section: Fluorescence Spectra Of Different Cheese Varietiesmentioning

confidence: 99%

“…Indeed, much less information is available about the relation between the shape of the vitamin A spectra and the organisation of lipids than the shape of the tryptophan spectra and the protein structure. However, it is well known that the fluorescent properties of this fluorophore are very sensitive to changes in the solvent viscosity [19,22,23]. Recently, a good correlation between the shapes of the vitamin A fluorescence spectra and the viscosity of lipids in the fat globules have been found [14].…”

Section: Partial Least Squares Analysismentioning

confidence: 99%

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Utilisation of front-face fluorescence spectroscopy for the determination of some selected chemical parameters in soft cheeses

Karoui

Mouazen

Dufour³

et al. 2006

Lait

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-This study evaluated the usefulness of front-face fluorescence spectroscopy for predicting some selected chemical parameters in soft cheeses in external (E) and central (C) zones. Fat, dry matter (DM), pH, total nitrogen (TN) and water-soluble nitrogen (WSN) contents were determined by reference methods. Tryptophan (excitation: 290 nm; emission: 305-450 nm), riboflavin (excitation: 380 nm; emission: 400-640 nm) and vitamin A fluorescence spectra (emission: 410 nm; excitation: 270-350 nm) were recorded on the investigated cheeses. Three separate prediction models were developed from the tryptophan, riboflavin and vitamin A spectra using partial least squares (PLS) regression and the leave-one-out cross-validation technique. The results showed that fat, DM, fat in dry matter and WSN were the best predicted with the vitamin A fluorescence spectra models providing the highest values of the determination coefficient (R 2 ) of 0.88, 0.86, 0.86 and 0.84, respectively. The prediction of the pH was also successful using riboflavin fluorescence spectra (R 2 = 0.85). The WSN/TN ratio can also be predicted from the three intrinsic probes, but with much lower precision. Résumé -Utilisation de la spectroscopie de fluorescence frontale pour la détermination de quelques paramètres chimiques à la surface et au centre des fromages à pâte molle. L'objectif de cette étude était d'évaluer le potentiel de la spectroscopie de fluorescence frontale à prédire quelques paramètres chimiques, à la surface et au centre, des fromages à pâte molle. Les teneurs en matière grasse, extrait sec, pH, azote total et en azote soluble ont été déterminées par des méthodes de référence. Des spectres de fluorescence des tryptophanes (excitation : 290 nm ; émission: 305-450 nm), de la riboflavine (excitation : 380 nm ; émission : 400-640 nm) et de la vitamine A (émission : 410 nm ; excitation : 270-350 nm) ont été également enregistrés sur ces fromages. Trois modèles séparés de prédictions ont été développés à partir des spectres des tryptophanes, de la riboflavine et de la vitamine A en utilisant la technique des moindres carrés partiels avec validation croisée. Les résultats obtenus ont montré que les teneurs en matière grasse, extrait sec, gras sur sec et en azote soluble étaient mieux prédites avec les modèles des spectres de fluorescence de la vitamine A qui donnaient les valeurs les plus élevées du coefficient de détermination (R 2 ) : 0,88, 0,86, 0,86 et 0,84, respectivement. La prédiction du pH est réalisée avec succès en utilisant les spectres de fluorescence de la riboflavine (R 2 = 0,85). Le rapport azote soluble/azote total peut, également, être prédit à partir des trois sondes intrinsèques, mais avec une précision beaucoup plus faible. fromage à pâte molle / tryptophane / riboflavine / vitamine A / moindres carrés partiels

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Section: Fluorescence Spectra Of Different Cheese Varietiesmentioning

confidence: 99%

Section: Partial Least Squares Analysismentioning

confidence: 99%

Utilisation of front-face fluorescence spectroscopy for the determination of some selected chemical parameters in soft cheeses

Karoui

Mouazen

Dufour³

et al. 2006

Lait

Self Cite

View full text Add to dashboard Cite

show abstract

“…Small-amplitude oscillatory shear or compression measurements were successfully used to study the viscoelastic behavior of food (Bertola et al 1992;Bowland and Foegeding 2001;Campanella et al 1987;Rosenberg et al 1995) and cheeses (Karoui et al 2003).…”

Section: Introductionmentioning

confidence: 99%

Cheese-Matrix Characteristics During Heating and Cheese Melting Temperature Prediction by Synchronous Fluorescence and Mid-infrared Spectroscopies

Boubellouta

Dufour

2010

Food Bioprocess Technol

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The structure and rheology characteristics of Comté (hard cheese) and Raclette (semihard cheese) cheeses as a function of temperature were investigated using dynamic testing rheology and mid-infrared and synchronous front-face fluorescence spectroscopies. The storage modulus (G′), the loss modulus (G″), and the complex viscosity (η*) decreased while strain and phase angle (tan δ) increased as the temperature increased from 20 to 80°C. SF (250-500 nm with Δλ=80) and MIR (3,000-2,800 (fat region), 1,700-1,500 (protein region), and 1,500-900 cm −1 (fingerprint region)) spectra were recorded on cheese samples at 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, and 80°C. The results showed that each spectroscopic technique provided relevant information related to the cheese protein and fat structures during melting, allowing the investigation of structural changes. In addition, the melting temperatures of cheese matrices and fats of the two cheeses were determined from the dynamic rheology data, SF spectra, and MIR spectra. Similar temperatures were obtained whatever the technique, since values of about 60 and 31°C were obtained for matrix and fat melting temperatures of Comté and Raclette cheeses, respectively. No significant difference was observed between the results obtained with the three methods (significance level of 5%).

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“…2b). The fluorescence intensity ratio F 320 /F 295 attributed to the physical state of the triglycerides of milk fat (Dufour et al 2000;Karoui et al 2003) increased from the young to ripened cheeses and shifted towards higher wavelengths with ripening. Hence, the excitation spectra of vitamin A characterize the physical state (viscosity) of the triglycerides in the milk fat and fat yield in the cheeses in the course of cheese ripening.…”

Section: Spectral Characteristicsmentioning

confidence: 99%

Relations Between Spectral and Physicochemical Properties of Cheese, Milk, and Whey Examined Using Multidimensional Analysis

Kulmyrzaev

Dufour

2008

Food Bioprocess Technol

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Using standard technologies, 36 experimental hard, semi-hard, and soft cheeses were manufactured from milk produced at three different locations. Infrared, fluorescence, and physicochemical properties of cheeses and corresponding milks and wheys were measured, and a data collection consisting of 16 tables characterizing measured properties was built. This data collection was then subjected to statistical treatment using common components and specific weights analysis (CCSWA). As a result, specific weights of the data tables relating them to the common components, latent variables, and loadings of the data tables were calculated. Analysis of the CCSWA results along with the physicochemical properties of the experimental cheeses demonstrated that cheeses can be discriminated according to the properties of corresponding milk and whey.

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Fluorescence spectroscopy: A tool for the investigation of cheese melting - Correlation with rheological characteristics

Cited by 53 publications

References 25 publications

Utilisation of front-face fluorescence spectroscopy for the determination of some selected chemical parameters in soft cheeses

Utilisation of front-face fluorescence spectroscopy for the determination of some selected chemical parameters in soft cheeses

Cheese-Matrix Characteristics During Heating and Cheese Melting Temperature Prediction by Synchronous Fluorescence and Mid-infrared Spectroscopies

Relations Between Spectral and Physicochemical Properties of Cheese, Milk, and Whey Examined Using Multidimensional Analysis

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