Revista de la Asociación Colombiana de Ciencias Biológicas
            issn impreso 0120-4173, issn en línea 2500-7459



                   24.  Martínez, J. M., Delso, C., Angulo, J., Álvarez, I., Raso, J. (2018). Pulsed electric fi eld-assisted ex-
                       traction of carotenoids from fresh biomass of Rhodotorula glutinis. Innov Food Sci Emerg Technol, 47,
                       421-427.
                   25.  Issa, S., Alhajali, A., Alamir, L. (2016). Improving carotenoid pigments production in Rhodotorula
                       mucilaginosa using UV irradiation. Int Food Res J, 23 (2), 873-878.
                   26.  Sumerta, I. N., Yuliani, Y., Kanti, A. (2019). Determining the potential indigenous red-yeasts produ-
                       cing β-carotene and their phylogenetic relationship. J Microbia lSyst  Biotech , 1 (2), 27-33.
                   27.  Libkind, D., van Broock, M. (2006). Biomass and carotenoid pigment production by patagonian native
                       yeasts. World J Microb Biot, 22 (7), 687-692.
                   28.  Bhosale, P., Gadre, R. (2001). Production of β-carotene by a mutant of Rhodotorula glutinis. Appl
                       Microbiol Biotechnol, 55 (4), 423-427.
                   29.  Aksu, Z., Eren, A. T. (2005). Carotenoids production by the yeast Rhodotorula mucilaginosa: use of
                       agricultural wastes as a carbon source. Process Biochem, 40 (9), 2985-2991.
                   30.  Saenge, C., Cheirsilp, B., Suksaroge, T. T., Bourtoom, T. (2011). Potential use of oleaginous red yeast
                       Rhodotorula glutinis for the bioconversion of crude glycerol from biodiesel plant to lipids and carote-
                       noids. Process Biochem, 46(1), 210-218.


























































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