57mayo - agosto 2025 Frontera Biotecnol%u00f3gica | N%u00b0 31ISSN: 2448-8461Hamidi, M., Mirzaei, R., Delattre, C., Khanaki, K., Pierre, G., Gardarin, C., Petit, E., Karimitabar, F., & Faezi, S. (2019). Characterization of a new exopolysaccharide produced by Halorubrum sp. TBZ112 and evaluation of its anti-proliferative effect on gastric cancer cells. 3 Biotech, 9(1), 1-8.Koller, M., Chiellini, E., & Braunegg, G. (2015). Study on the production and re-use of poly(3-hydroxybutyrate-co-3-hydroxyvalerate) and extracellular polysaccharide by the archaeon Haloferax mediterranei strain DSM 1411. Chem. Biochem. Eng. Q., 29(2), 87%u201398.L%u00f3pez-Ortega, M. A., Chavarr%u00edaHern%u00e1ndez, N., L%u00f3pez-Cuellar, M. R., & Rodr%u00edguez-Hern%u00e1ndez, A. I. (2021). A review of extracellular polysaccharides from extreme niches: An emerging natural source for the biotechnology. From the adverse to diverse! Int. J. Biol. Macromol., 177, 559%u2013577.L%u00f3pez-Ortega, M. A., EscalanteAvil%u00e9s, M., Rodr%u00edguez-Hern%u00e1ndez, A. I., L%u00f3pez-Cuellar, Ma. del R., Aguirre-Loredo, R. Y., Mart%u00ednezJu%u00e1rez, V. M., P%u00e9rez-Guevara, F., Hern%u00e1ndez-Valdepe%u00f1a, M. %u00c1., & Chavarr%u00eda-Hern%u00e1ndez, N. (2024). Co-production of polyhydroxyalkanoates (PHAs) and exopolysaccharides (EPSs) by halophilic archaeon Haloferax mucosum. New J Chem., 48(48), 20188-20200.Medina-Ch%u00e1vez, N. O., ViladomatJasso, M., Olmedo-%u00c1lvarez, G., Eguiarte, L. E., Souza, V., & De la Torre-Zavala, S. (2019). Diversity of archaea domain in Cuatro Cienegas basin: Archaean domes. BioRxiv, 766709.Obruca, S., Sedlacek, P., Slaninova, E., Fritz, I., Daffert, C., Meixner, K., Sedrlova, Z., & Koller, M. (2020). Novel unexpected functions of PHA granules. Appl. Microbiol. Biotechnol., 104(11), 4795%u20134810. Ant%u00f3n, J., Meseguer, I., & Rodr%u00edguez-Valera, F. (1988). Production of an extracellular polysaccharide by Haloferax mediterranei. Appl. Environ. Microbiol., 54(10), 2381%u20132386.Arag%u00f3n-Le%u00f3n, A., MorenoVilet, L., Gonz%u00e1lez-%u00c1vila, M., Mondrag%u00f3n-Cortez, P. M., Sassaki, G. L., Mart%u00ednez-P%u00e9rez, R. B., & Camacho-Ru%u00edz, R. M. (2023). Inulin from halophilic archaeon Haloarcula: Production, chemical characterization, biological, and technological properties. Carbohydr Polym., 321, 1-11.Bramble, M. S., & Hand, K. P. (2024). Spectral evidence for irradiated halite on Mars. Sci. Rep., 14(1), 1-13.Colwell, J., Pratt, S., Lant, P., & Laycock, B. (2023). Hazardous state lifetimes of biodegradable plastics in natural environments. Sci. Total Environ, 894, 1-13.DasSarma, S., DasSarma, P., Laye, V. J., & Schwieterman, E. W. (2020). Extremophilic models for astrobiology: haloarchaeal survival strategies and pigments for remote sensing. Extremophiles, 24(1), 31%u201341.Ding, R., Yang, N., & Liu, J. (2022). The Osmoprotectant Switch of Potassium to Compatible Solutes in an Extremely Halophilic Archaea Halorubrum kocurii2020YC7. Genes, 13(6), 939.Dur%u00e1n-Viseras, A., Andrei, A. S., Ghai, R., S%u00e1nchez-Porro, C., & Ventosa, A. (2019). New Halonotiusspecies provide genomics-based insights into cobalamin synthesis in Haloarchaea. Front. Microbiol., 10, 1-19.Garc%u00eda-Maldonado, J. Q., Escobar-Zepeda, A., Raggi, L., Bebout, B. M., Sanchez-Flores, A., & L%u00f3pez-Cort%u00e9s, A. (2018). Bacterial and archaeal profiling of hypersaline microbial mats and endoevaporites, under natural conditions and methanogenic microcosm experiments. Extremophiles, 22, 903-916.Oren, A. (2003). Taxonomy of Halophilic Microorganisms: Archaea, Bacteria, and Eucarya. In: Halophilic Microorganisms and their Environments. Cellular Origin, Life in Extreme Habitats and Astrobiology, vol 5. Springer, Dordrecht. 23-68 pp.Oren A, Ventosa A. Benjamin Elazari Volcani (1915-1999): sixty-three years of studies of the microbiology of the Dead Sea. Int Microbiol. 1999; 2(3):195-8.Parolis, H., Parolis, L. A. S., Bo%u00e1n, I. F., Rodr%u00edguez-Valera, F., Widmalm, G., Manca, M. C., Jansson, P. E., & Sutherland, I. W. (1996). The structure of the exopolysaccharide produced by the halophilic Archaeon Haloferax mediterranei strain R4 (ATCC 33500). Carbohydr. Res., 295(96), 147%u2013156.Romero-Castel%u00e1n, E., Rodr%u00edguezHern%u00e1ndez, A. I., Chavarr%u00edaHern%u00e1ndez, N., L%u00f3pez-Ortega, M. A., & L%u00f3pez-Cuellar, M. del R. (2023). Natural antimicrobial systems protected by complex polyhydroxyalkanoate matrices for food biopackaging applications %u2014 A review. Int. J. Biol. Macromol., 233(1231418), 1%u201320.Serrano, S., Mendo, S., & Caetano, T. (2022). Haloarchaea have a high genomic diversity for the biosynthesis of carotenoids of biotechnological interest. Res. Microbiol., 173(3), 103919.Souza, V., Escalante, A., Espinoza, L., Valera, A., Cruz, A., Eguiarte, L. E., ... & Elser, Y. J. (2004). Cuatro Ci%u00e9negas un laboratorio natural de astrobiolog%u00eda. Ciencias, 75, 4-12.Squillaci, G., Finamore, R., Diana, P., Restaino, O. F., Schiraldi, C., Arbucci, S., Ionata, E., La Cara, F., & Morana, A. (2016). Production and properties of an exopolysaccharide synthesized by the extreme halophilic archaeon Haloterrigena turkmenica. Appl. Microbiol. Biotechnol., 100(2), 613%u2013623.Vdovchenko, A., & Resmini, M. (2024). Mapping microplastics in humans: Analysis of polymer types, and shapes in food and drinking water %u2014 A Systematic review. Int. J. Mol. Sci., 25(13), 1-20.Woese, C. R., Kandlert, O., & Wheelis, M. L. (1990). Towards a natural system of organisms: Proposal for the domains. Proc Natl Acad Sci U.S.A, 87(June), 4576%u20134579.Xu, Y., Li, Y., You, X., Pei, C., Wang, Z., Jiao, S., Zhao, X., Lin, X., L%u00fc, Y., Jin, C., Gao, G. F., Li, J., Wang, Q., & Du, Y. (2022). Novel insights into the sulfated glucuronic acid-based anti-SARS-CoV-2 mechanism of exopolysaccharides from halophilic archaeon Haloarcula hispanica. Front. Chem., 10(April), 1%u20139.Yim, K. J., Kwon, J., Cha, I. T., Oh, K. S., Song, H. S., Lee, H. W., ... & Roh, S. W. (2015). Occurrence of viable, red-pigmented haloarchaea in the plumage of captive flamingoes. Sci. Rep., 5(1), 1-10. REFERENCIAS