Carotenoides en levaduras aisladas de sistemas acuáticos. Villota  et al.




                                                         Referencias


                    1.  Carranco Jáuregui, M. E., Calvo Carrillo, M. de la C., Pérez-Gil Romo, F. (2011). Carotenoides y su
                        función antioxidante: Revisión. Arch Latinoam Nutr, 61 (3), 233-241.
                    2.  Meléndez-Martínez, A.J., Mapelli-Brahm, P. Hornero-Méndez, D., Vicario, I.M. (2019); Chapter 1.
                        Structures, nomenclature and general chemistry of carotenoids and their esters. En Carotenoid Esters
                        in Foods: Physical, Chemical and Biological Properties. Pp 1-50.
                    3.  Chen, P., Zhang, W., Wang, X., Zhao, K., Negi, D. S., Zhuo, L., Qi, M., Wang, X., & Zhang, X. (2015).
                        Lycopene and Risk of Prostate Cancer: A Systematic Review and Meta-Analysis. Medicine, 94 (33),
                        e1260.
                    4.  Meléndez-Martínez, A.J., Britton, G., Vicario, I.M. Heredia, F.J. (2007). Relationship between the
                        color and the chemical structure of carotenoid pigments. Food Chem, 101 (3), 1145-1150.
                    5.  Guerin, M., Huntley, M.E., Olaizola, M. (2003). Haematococcus astaxanthin: applications for human
                        health and nutrition. Trends Biotechnol, 21 (5), 210-216.
                    6.  Gutiérrez,  M.S.,  Campusano,  S.,  González, A.M.,  Gómez,  M.,  Barahona,  S.,  Sepúlveda,  D.,  et  al
                        (2019). Sterol regulatory element-binding protein (Sre1) promotes the synthesis of carotenoids and
                        sterols in Xanthophyllomyces dendrorhous. Front Microbiol, 10, 586.
                    7.  Morata, A., Loira, I., Heras, J.M., Callejo, M.J., Tesfaye, W., González, C., et al (2016). Yeast infl uence
                        on the formation of stable pigments in red winemaking. Food Chem, 197, 686-691.
                    8.  Vachali, P., Bhosale, P., Bernstein, P. S. (2012). Microbial carotenoids. Methods Mol Biol, 898, 41-59.
                    9.  Álvarez-Gómez, F., Korbee, N., Casas-Arrojo, V., Abdala-Díaz, R. T., Figueroa, F. L. (2019). UV
                        photoprotection, cytotoxicity and immunology capacity of red algae extracts. Molecules, 24(2), 341.
                    10.  Chavez-Vivas, M., Caicedo, L.D., Castillo, J.E. (2019). Occurrence of β-lactamase-producing Gram-
                        negative bacterial isolates in water sources in Cali City, Colombia. Int J Microbiol, 1375060, 1-8.
                    11.  Silva-Bedoya, L. M., Ramírez-Castrillón, M., Osorio-Cadavid, E. (2014). Yeast diversity associated to
                        sediments and water from two Colombian artifi cial lakes. Braz J Microbiol, 45 (1), 135-142.
                    12.  Morillo, Y., Sánchez, T., Morante, N., Chávez, A. L., Morillo, A. C., Bolaños, A., et al (2012). Estudio
                        preliminar de herencia del contenido de carotenoides en raíces de poblaciones segregantes de yuca
                        (Manihot esculenta Crantz). Acta Agron, 61 (3), 253-264.
                    13.  Miller, G. L. (1959). Modifi ed DNS method for reducing sugars. Anal Chem, 31(3), 4
                    14.  Vu, D., Groenewald, M., Szöke, S., Cardinali, G., Eberhardt, U., Stielow, B., et al (2016). DNA barco-
                        ding analysis of more than 9 000 yeast isolates contributes to quantitative thresholds for yeast species
                        and genera delimitation. Stud Mycol, 85, 91-105.
                    15.  Kot, A. M., Błażejak, S., Gientka, I., Kieliszek, M., Bryś, J. (2018). Torulene and torularhodin: “new”
                        fungal carotenoids for industry? Microb Cell Fact, 17, 49.
                    16.  Derx, H.G. (1930). Etude sur les Sporobolomycetes. Ann Mycol, 28, 1-23.
                    17.  Kurtzman, C., Fell, J. W., Boekhout, T., (2011). The yeasts: a taxonomic study. Ed. Elsevier. Pp 2354.
                    18.  Wang, Q. M., Yurkov, A. M., Goker, M., Lumbsch, H. T., Leavitt, S. D., et al (2015). Phylogenetic
                        classifi cation of yeasts and related taxa within Pucciniomycotina. Stud Mycol, 81, 149-189.
                    19.  Manimala, M. R. A., Murugesan, R. (2017). Studies on carotenoid pigment production by yeast Rhodo-
                        torula mucilaginosa using cheap materials of agro-industrial origin. Pharma Innovation, 6(1), 80-82.
                    20.  Hong, Gyu, S., Chun, J., Nam, J. S., Park, Y. D., Bae, K. S. (2000). Phylogenetic analysis of genus
                        Sporobolomyces based on partial sequences of 26S rDNA. J Microbiol Biotechnol, 10 (3), 363-366.
                    21.  Rodríguez Iza, E. L. (2016). Cultivo de la microalga Coenochloris sp. con fracción soluble de papa
                        (Solanum phureja L) para la obtención de pigmentos (Carotenoides). Pregrado Universidad Politecnica
                        Salesiana, Quito.
                    22.  Elsanhoty,  R.  M., Abd  El-Razink,  M.  M., Al-Turki, A.  I.  (2017).  Production  of  carotenoids  from
                        Rhodotorula mucilaginosa and their applications as colorant agent in sweet candy. J Food Agric En-
                        viron, 15 (2) 21-26
                    23.  Montero-Lobato,  Z.,  Ramos-Merchante, A.,  Fuentes,  J.  L.,  Sayago, A.,  Fernández-Recamales,  Á.,
                        Martínez-Espinosa, R. M., et al (2018). Optimization of growth and carotenoid production by Halofe-
                        rax mediterranei using response surface methodology. Mar Drugs, 16 (10), 372.




                                                                                                            113
            Rev. Asoc. Col. Cienc.(Col.), 2020; 32: 103-114.