References
- Aguedo, M.; Hanon, E.; Danthine, S.; Paquot, M.; Lognay, G.; Thomas, A.; Vandenbol, M.; Thonart, P.; Wathelet, J.P.; Blecker, C. Enrichment of Anhydrous Milk Fat in Polyunsaturated Fatty Acid Residues from Linseed and Rapeseed Oils through Enzymatic Interesterification. Journal of Agricultural and Food Chemistry 2008, 56, 1757–1765.
- Reddy, S.Y. Improving Plasticity of Milk Fat for Use in Baking by Fractionation. Journal of the American Oil Chemists’ Society 2010, 87, 493–497.
- Grall, D.S.; Hartel, R.W. Kinetics of Butterfat Crystallization. Journal of the American Oil Chemists’ Society 1992, 69, 741–747.
- Büyükbeşe, D.; Emre, E.E.; Kaya, A. Supercritical Carbon Dioxide Fractionation of Anhydrous Milk Fat. Journal of the American Oil Chemists’ Society 2014, 91, 169–177.
- Destaillats, F.; de Wispelaere, M.; Joffre, F.; Golay, P.A.; Hug, B.; Giuffrida, F.; Fauconnot, L.; Dionisi, F. Authenticity of Milk Fat by Fast Analysis of Triacylglycerols: Application to the Detection of Partially Hydrogenated Vegetable Oils. Journal of Chromatography A 2006, 1131, 227–234.
- Balcão, V.M.; Kemppinen, A.; Malcata, F.X.; Kalo, P.J. Modification of Butterfat by Selective Hydrolysis and Interesterification by Lipase: Process and Product Characterization. Journal of the American Oil Chemists’ Society 1998, 75, 1347–1358.
- Schenkel, P.; Samudrala, R.; Hinrichs, J. Thermo-Physical Properties of Semi-Hard Cheese Made with Different Fat Fractions: Influence of Melting Point and Fat Globule Size. International Dairy Journal 2013, 30, 79–87.
- Ayyildiz, H.F.; Topkafa, M.; Kara, H.; Sherazi, S.T.H. Evaluation of Fatty Acid Composition, Tocols Profile, and Oxidative Stability of Some Fully Refined Edible Oils. International Journal of Food Properties 2015, 18, 2064–2076.
- Badu, M.; Awudza, A.J. Determination of the Triacylglycerol Content for the Identification and Assessment of Purity of Shea Butter Fat, Peanut Oil, and Palm Kernel Oil Using Maldi-Tof/Tof Mass Spectroscopic Technique. International Journal of Food Properties 2017, 20, 1271–1280.
- Öğütcü, M.; Yılmaz, E. Characterization of Hazelnut Oil Oleogels Prepared with Sunflower and Carnauba Waxes. International Journal of Food Properties 2015, 18, 1741–1755.
- Arul, J.; Boudreau, A.; Makhlouf, J.; Tardi, R.; Bellavia, T. Fractionation of Anhydrous Milk Fat by Short-Path Distillation. Journal of the American Oil Chemists’ Society 1988, 65, 1642–1646.
- Fatouh, A.E.; Singh, R.K.; Koehler, P.E.; Mahran, G.A.; Metwally, A.E. Physical, Chemical and Stability Properties of Buffalo Butter Oil Fractions Obtained by Multi-Step Dry Fractionation. Food Chemistry 2005, 89, 243–252.
- Queirós, M.S.; Grimaldi, R.; Gigante, M.L. Addition of Olein from Milk Fat Positively Affects the Firmness of Butter. Food Research International 2016, 84, 69–75.
- Ramel, P.; Marangoni, A.G. Engineering the Microstructure of Milk Fat by Blending Binary and Ternary Mixtures of Its Fractions. RSC Advances 2016, 6, 41189–41194.
- Prado, G.H.C.; Khan, M.; Saldaña, M.D.A.; Temelli, F. Enzymatic Hydrolysis of Conjugated Linoleic Acid-Enriched Anhydrous Milk Fat in Supercritical Carbon Dioxide. The Journal of Supercritical Fluids 2012, 66, 198–206.
- Bugeat, S.; Perez, J.; Briard-Bion, V.; Pradel, P.; Ferlay, A.; Bourgaux, C.; Lopez, C. Unsaturated Fatty Acid Enriched Vs. Control Milk Triacylglycerols: Solid and Liquid TAG Phases Examined by Synchrotron Radiation X-Ray Diffraction Coupled with DSC. Food Research International 2015, 67, 91–101.
- Robinson, N.P.; MacGibbon, A.K.H. The Composition of New Zealand Milk Fat Triacylglycerols by Reversed-Phase High-Performance Liquid Chromatography. Journal of the American Oil Chemists’ Society 1998, 75, 993–999.
- Lopez, C.; Bourgaux, C.; Lesieur, P.; Riaublanc, A.; Ollivon, M. Milk Fat and Primary Fractions Obtained by Dry Fractionation: 1. Chemical Composition and Crystallisation Properties. Chemistry and Physics of Lipids 2006, 144, 17–33.
- Martínez-Monteagudo, S.I.; Khan, M.; Temelli, F.; Saldaña, M.D. Obtaining a Hydrolyzed Milk Fat Fraction Enriched in Conjugated Linoleic Acid and Trans-Vaccenic Acid. International Dairy Journal 2014, 36, 29–37.
- Nyyssölä, A.; Miettinen, H.; Kontkanen, H.; Lille, M.; Partanen, R.; Rokka, S.; Järvenpää, E.; Lantto, R.; Kruus, K. Treatment of Milk Fat with Sn-2 Specific Pseudozyma antarctica Lipase A for Targeted Hydrolysis of Saturated Medium and Long-Chain Fatty Acids. International Dairy Journal 2015, 41, 16–22.
- Ruiz-Gutierrez, V.; Barron, L.J.R. Methods for the Analysis of Triacylglycerols. Journal of Chromatography B: Biomedical Sciences and Applications 1995, 671, 133–168.
- Omar, K.A.; Gounga, M.E.; Liu, R.; Mlyuka, E.; Wang, X. Effects of Microbial Lipases on Hydrolyzed Milk Fat at Different Time Intervals in Flavour Development and Oxidative Stability. Journal of Food Science and Technology Mysore 2016, 53, 1035–1046.
- Neff, W.E.; Byrdwell, W.C. Soybean Oil Triacylglycerol Analysis by Reversed-Phase High-Performance Liquid Chromatography Coupled with Atmospheric Pressure Chemical Ionization Mass Spectrometry. Journal of the American Oil Chemists’ Society 1995, 72, 1185–1191.
- Wiking, L.; de Graef, V.; Rasmussen, M.; Dewettinck, K. Relations between Crystallisation Mechanisms and Microstructure of Milk Fat. International Dairy Journal 2009, 19, 424–430.
- Jahn, M.; Jahn, D. Milk Fat/Rancidity. In Handbook of Hydrocarbon and Lipid Microbiology Institut für Mikrobiologie, Technical University Braunschweig, Braunschweig, Germany,, Springer, 2010; 2377–2391.
- Zou, X.; Huang, J.; Jin, Q.; Guo, Z.; Liu, Y.; Cheong, L.; Xu, X.; Wang, X. Lipid Composition Analysis of Milk Fats from Different Mammalian Species: Potential for Use as Human Milk Fat Substitutes. Journal of Agricultural and Food Chemistry 2013, 61, 7070–7080.
- Fontecha, J.; Mayo, I.; Toledano, G.; Juáre, M. Use of Changes in Triacylglycerols during Ripening of Cheeses with High Lipolysis Levels for Detection of Milk Fat Authenticity. International Dairy Journal 2006, 16, 1498–1504.
- Tzompa-Sosa, D.A.; van Valenberg, H.J.F.; van Aken, G.A.; Bovenhuis, H. Milk Fat Triacylglycerols and Their Relations with Milk Fatty Acid Composition, DGAT1 K232A Polymorphism, and Milk Production Traits. Journal of Dairy Science 2016, 99, 3624–3631.
- Tunick, M.H.; Malin, E.L. Differential Scanning Calorimetry of Water Buffalo and Cow Milk Fat in Mozzarella Cheese. Journal of the American Oil Chemists’ Society 1997, 74, 1565–1568.
- Smiddy, M.A.; Huppertz, T.; van Ruth, S.M. Triacylglycerol and Melting Profiles of Milk Fat from Several Species. International Dairy Journal 2012, 24, 64–69.
- Rao, R.; Sankar, K.U.; Sambaiah, K.; Lokesh, B.R. Differential Scanning Calorimetric Studies on Structured Lipids from Coconut Oil Triglycerides Containing Stearic Acid. European Food Research and Technology 2001, 212, 334–343.
- Makeri, M.U.; Karim, R.; Abdulkarim, M.S.; Ghazali, H.M.; Miskandar, M.S.; Muhammad, K. Comparative Analysis of the Physico-Chemical, Thermal, and Oxidative Properties of Winged Bean and Soybean Oils. International Journal of Food Properties 2016, 19, 2769–2787.
- Haddad, I.; Mozzon, M.; Strabbioli, R.; Frega, N.G. Electrospray Ionization Tandem Mass Spectrometry Analysis of Triacylglycerols Molecular Species in Camel Milk (Camelus dromedarius). International Dairy Journal 2011, 21, 119–127.
- Shi, C.; Chang, M.; Liu, R.; Jin, Q.; Wang, X. Trans-Free Shortenings through the Interesterification of Rice Bran Stearin, Fully Hydrogenated Soybean Oil and Coconut Oil. International Journal of Food Engineering 2015, 11, 467–477.
- Danthine, S.; Lefébure, E.; Trinh, H.N.; Blecker, C. Effect of Palm Oil Enzymatic Interesterification on Physicochemical and Structural Properties of Mixed Fat Blends. Journal of the American Oil Chemists’ Society 2014, 91, 1477–1487.
- Reddy, S.Y.; Jeyarani, T. Trans-Free Bakery Shortenings from Mango Kernel and Mahua Fats by Fractionation and Blending. Journal of the American Oil Chemists’ Society 2001, 78, 635–640.
- Torbica, A.; Jambrec, D.; Tomić, J.; Pajin, B.; Petrović, J.; Kravić, S.; Lončarević, I. Solid Fat Content, Pre-Crystallization Conditions, and Sensory Quality of Chocolate with Addition of Cocoa Butter Analogues. International Journal of Food Properties 2016, 19, 1029–1043.