References
- Lu Z., Wang J., Gao R., Ye F. and Zhao G., “Sustainable Valorization of Tomato Pomace, A Comprehensive Review”, Trends Food Sci. Technol., 86, pp. 172–187 (2019).
- Zuorro A., Fidaleo M. and Lavecchia R., “Enzyme-Assisted Extraction of Lycopene from Tomato Processing Waste”, Enzyme Microb. Technol., 49, pp. 567–573 (2011).
- Elleuch M., Bedigian D., Roiseux O., Besbes S., Blecker C. and Attia H., “Dietary Fiber and Fiber-Rich by-Products of Food Processing, Characterization, Technological Functionality, and Commercial Applications: A Review”, Food Chem., 124, pp. 411–421 (2011).
- Elleuch M., Besbes S., Roiseux O., Blecker C., Deroanne C., Drira N. and Attia H., “Date Flesh: Chemical Composition and Characteristics of the Dietary Fiber”, Food Chem., 111, pp. 676–682 (2008).
- Maphosa Y. and Jideani V., “Dietary Fiber Extraction for Human Nutrition—a Review”, Food Rev. Int., 32(1), pp. 98–115 (2016).
- Zhang W., Zeng G., Pan Y., Chen W., Huang W., Chen H. and Li Y., “Properties of Soluble Dietary Fiber-Polysaccharide from Papaya Peel Obtained Through Alkaline or Ultrasound-Assisted Alkaline Extraction”, Carbohydr. Polym., 172, pp. 102–112 (2017).
- Ma M. and Mu T., “Effects of Extraction Methods and Particle Size Distribution on the Structural, Physicochemical, and Functional Properties of Dietary Fiber from Deoiled Cumin”, Food Chem., 194, pp. 237–246 (2016).
- Inmaculada N., Valverde V., Alonso J. and Periago J., “Chemical Profile, Functional and Antioxidant Properties of Tomato Peel Fiber”, Food Res. Int., 44, pp. 1528–1535 (2011).
- Li N., Feng Z., Niu Y. and Yu L., “Structural, Rheological and Functional Properties of Modified Soluble Dietary Fiber from Tomato Peels”, Food Hydrocoll., 77, pp. 557–565 (2017).
- Gua M., Fang H., Gao Y., Su T., Niu Y. and Yu L., “Characterization of Enzymatic Modified Soluble Dietary Fiber from Tomato Peels with the High Release of Lycopene”, Food Hydrocoll., 99, pp. 105321 (2020).
- Giuffre A.M., Capocasale M., Zappia C., Sicari V., Pellicano T., Poiana M. and Panzera G., “Tomato Seed Oil for Biodiesel Production”, Eur. J. Lipid Sci. Technol., 118, pp. 640–650 (2016).
- Shao D., Venkitasamy C., Li X., Pan Z., Shi J., Wang B., Teh H. and McHugh T., “Thermal and Storage Characteristics of Tomato Seed oil”, LWT - Food Sci Technol., 63, pp. 191–197 (2015).
- Demirbas A., “Oil, Micronutrient, and Heavy Metal Contents of Tomatoes”, Food Chem., 118, pp. 504–507 (2010).
- Lazos E., Tsaknis J. and Lalas S., “Characteristics and Composition of Tomato Seed oil”, Grasas Aceites., 49(5–6), pp. 440–445 (1998).
- Fullbrook P., “The use of Enzymes in the Processing of Oilseeds”, J. Am. Oil Chem. Soc., 60, pp. 476–478 (1983).
- Wan P. and Wakelyn P., Technology and Solvents for Extracting Oilseeds and Nonpetroleum Oils. In: Owusu-ansah YJ, Enzyme assisted extraction, chapter 19 (1997).
- Latif S., Levente L. and Farooq A., “Enzyme-Assisted Aqueous Extraction of oil and Protein from Canola (Brassica Napus L.) Seeds”, Eur. J. Lipid Sci. Technol., 110, pp. 887–892 (2008).
- Surlehan H., Noor Azman N. and Zakaria R. “Extraction of oil from Passion Fruit Seeds Using Surfactant-Assisted Aqueous Extraction”, Food. Res., 3(4), pp. 348–356 (2019).
- Kadioglu S., Phan T. and Sabatini D., “Surfactant-Based Oil Extraction of Corn Germ”, J. Am. Oil Chem. Soc., 88, pp. 863–869 (2011).
- Do L. and Sabatini D., “Aqueous Extended-Surfactant Based Method for Vegetable Oil Extraction: Proof of Concept”, J. Am. Oil Chem. Soc., 87, pp. 1211–1220 (2010).
- Do L. and Sabatini D., “Pilot Scale Study of Vegetable Oil Extraction by Surfactant-Assisted Aqueous Extraction Process”, Sep. Sci. Technol., 46(6), pp. 978–985 (2011).
- Niu Y., Li N., Xia Q., Hou Y. and Xu G., “Comparisons of Three Modifications on Structural, Rheological, and Functional Properties of Soluble Dietary Fibers from Tomato Peels”, LWT-Food Sci Technol., 88, pp. 56–63 (2018).
- Hu H. and Zhao Q., “Optimization Extraction and Functional Properties of Soluble Dietary Fiber from Pineapple Pomace Obtained by Shear Homogenization-Assisted Extraction”, RSC Adv., 8, pp. 41117–41130 (2018).
- Williams B., Mikkelsen D., Flanagan B. and Gidley M., ““Dietary Fiber”: Moving Beyond the “Soluble/Insoluble” Classification for Monogastric Nutrition, with an Emphasis on Humans and Pigs”, J. Anim. Sci. Biotechnol. 10, p. 45 (2019).
- Wang L., Xu H., Yuan F., Fan R. and Gao Y., “Preparation and Physicochemical Properties of Soluble Dietary Fiber from Orange Peel Assisted by Steam Explosion and Dilute Acid Soaking”, Food Chem., 185, pp. 90–98 (2015).
- Nsor-Atindana J., Zhong F. and Mothibea K., “In Vitro Hypoglycemic and Cholesterol-Lowering Effects of Dietary Fiber Prepared from Cocoa (Theobroma cacao L.) Shells”, Food Funct., 10, pp. 1044–1050 (2012).
- Eller F., Moser J., Kenar J. and Taylor S., “Extraction and Analysis of Tomato Seed Oil”, J. Am. Oil Chem. Soc., 87:755–762 (2010).
- Giuffre A., “Tomato Seed Oil: A Comparison of Extraction Systems and Solvents on its Biodiesel and Edible Properties”, Riv Ital Sostanze Gr., 94, pp. 149–160 (2017).