Stephens-Camacho NA, Valdez-Hurtado S, LastraZavala G, F%u00e9lix-Ibarra LI (2018). Consumo de edulcorantes no nutritivos: efectos a nivel celular y metab%u00f3lico. Perspectivas en Nutrici%u00f3n Humana 202Stephens N, Valdez S, Lastra G, F%u00e9lix L (2018). Consumo de edulcorantes no nutritivos: Efectos a nivel celular y metab%u00f3lico. Perspectivas en Nutrici%u00f3n Humana 20:2 185-202.Temussi PA (2006). Natural sweet macromolecules: how sweet proteins work. Cellular and Molecular Life Sciences CMLS 63:16 1876-1888. Vastenavond M, Bertelsen H, Hansen J, Laursen S, Saunders J y Eriknauer K (2012). Tagatose (D-tagatose). In: Nabors L, editor. Alternative sweeteners. Boca Raton, Fla: CRC PressVilela A, Matos S, Abra%u00e3o AS, Lemos AM & Nunes, FM. (2015). Sucrose replacement by sweeteners in strawberry, raspberry, and cherry Jams: Effect on the textural characteristics and sensorial profile%u2014A chemometric Approach. Journal of Food Processing, 2015.Weihrauch MR, Diehl V (2004). Artificial sweeteners do they bear a carcinogenic risk? Annals of Oncology 15:10 1460-1465.Witkowski M, Nemet I, Alamri H, Wilcox J, Gupta N y Hazen S (2023). The artificial sweetener erythritol and cardiovascular event risk. Nature Medicine, 1:9.Yang L, Cui M, & Liu B (2021). Current progress in understanding the structure and function of sweet taste receptor. Journal of Molecular Neuroscience, 71 234-244.Frontera Biotecnol%u00f3gica mayo - agosto 202312ISSN: 2448-8461