Los quesos frescos de cabra artesanales de la quebrada de Humahuaca son elaborados con leche cruda, cuya maduración genera sabores, aromas y texturas característicos de la región. Los objetivos de este estudio fueron identificar y caracterizar bacterias lácticas (BAL) y levaduras nativas, aisladas de quesos frescos de esta zona productora. De un total de 36 muestras sembradas en agar Sabouraud, agar MRS y M17, se obtuvieron 128 levaduras y 39 lactobacilos, los que fueron identificados fenotípicamente y evaluadas las siguientes propiedades tecnológicas: pH a la coagulación, tasa de acidificación, proteólisis en agar leche, lipólisis en agar triacetina, producción de acetoína en leche reconstituida y asimilación del citrato en agar citrato. Lb. delbruekii subsp. bulgaricus, Lb. casei subsp. pseudoplantarum, Lb. plantarum var. arabinosus, Lb. plantarum var. plantarum, Lb. casei subsp. rhamnosus, Lb. acidophilus, Lb. helveticus, Lb. fermentum, Lb. brevis var. brevis, Lactococos sp. y Enterococcus sp. fueron las bacterias lácticas identificadas. Del total de los aislamientos, 41,6% coagularon la leche en 10 horas y 33% en 5 horas. Lb. helveticus coaguló la leche a pH de 5,40 en 5 horas, hasta alcanzar un valor final de 4,16 en 24 h, mientras que Lb. delbrueckii subsp. bulgaricus y Lb. fermentum iniciaron la coagulación en 5 horas, con valores de pH iniciales de 4,81 y 4,92 hasta valores finales de 4,19 y 4,21 respectivamente. Lb. helveticus, Lb. delbrueckii subsp. bulgaricus, Lb. plantarum var. arabinosus, Lb. fermentum, Lb. casei subsp. rhamnsosus, Lb. casei subsp. pseudoplantarum, Lb. brevis var. brevis, en orden descendente, demostraron tener capacidad acidificante. Lb. fermentum y Lb. casei subsp. pseudoplantarum desarrollaron actividad proteolítica y sólo Lb. plantarum var. plantarum demostró tener actividad lipolítica. Las levaduras aisladas fueron Debaryomyces hansenii, Zygosaccharomyces rouxii, Kluyveromyces lactis, Wickerbamiela domerquiae, Dekkera bruxellensis, Candida valdiviana, Candida novakii, Dekkera bruxellensis, Candida versatilis, Candida magnoliae, Candida albicans, Pichia anómala, Dekkera anómala y Rodotorula sp. Cepas de D. hansenii, C. magnoliae, Z. rouxii,C. versatilis y K. lactis tuvieron actividad proteolítica y lipólitica, y una cepa de W. domerquiae tuvo solamente actividad proteolítica. Algunas cepas de K. lactis produjeron acetoína y D. bruxellensis y C. versatilis metabolizaron el citrato, hidrolizaron la caseína y tuvieron actividad lipolítica.

Los resultados obtenidos en este estudio muestran que la composición de las poblaciones de BAL y levadura en quesos artesanales es específica de la región. Los conocimientos adquiridos en este estudio podrían ser utilizados para la obtención de cultivos iniciadores con cepas de BAL y levaduras específicas de la región, destinados a la producción de quesos frescos con origen geográfico específico.

-Topisirovic, L., Kojic, M., Fira, D., Golic, N., Strahinic, I. and Lozo, J. Potential of lactic acid bacteria isolated from specific natural niches in food production and preservation. International Journal of Food Microbiology. 2006; 112: 230–235.

-Chebenová-Turcovská, V., Zenišová, K., Kuchta, T., Pangallo, D. and Brežná, B. Culture independent detection of microorganisms in traditional Slovakian bryndza cheese. International. Journal of Food Microbiology 2011; 150: 73–78..

-Sørensen, L.M., Gori, K., Petersen, M.A., Jespersen and L., Arneborg, N. Flavour compound production by Yarrowia lipolytica, Saccharomyces cerevisiae and Debaryomyces hansenii in a cheese-surface model. International Dairy Journal 2011; 21: 970–978.

-Terzic-Vidojevic, A., Vukasinovic, M., Veljovic, K., Ostojic, M. and Topisirovic, L. Characterization of microflora in homemade semi-hard white Zlatar cheese. International Journal of Food Microbiology. 2007; 14: 36–42.

-Mannu, L., Riu, G., Comunian, R., Frozzi, M.C., Scintu, M.F. A preliminary study of lactic acid bacteria in whey starter culture and industrial Pecorino Sardo ewes, milk cheese: PCR-identification and evolution during ripening. International Dairy Journal. 2002; 12: 17–26.

-Bergey, & Holt, John G Bergey's manual of determinative bacteriology (9th ed). Lippincott, Williams & Wilkins, Baltimore. (2000).

-Barnett, JA, Payne RW & Yarrow D. Yeast’s characteristics and Identification. Third Edition. United Kingdom. Cambridge University Press. 2007

-Chaves-López, C., Tofalo, R., Serio, A., Paparella, A., Sacchetti, G. and Suzzi, G. Yeasts from Colombian Kumis as source of peptides with Angiotensin I converting enzyme (ACE) inhibitory activity in milk. International Journal of Food Microbiology. 2012; 159: 39-46.

-Moulay, M., Aggad, H., Benmechernene, Z., Guessas, B., Henni, D.E. and Kihal, M. Cultivable Lactic Acid Bacteria Isolated from Algerian Raw Goat‘s Milk and Their Proteolytic Activity. World Journal of Dairy & Food Sciences 2006; 1 (1): 12-18.

-Mac Faddin, J.F. Pruebas bioquímicas para la identificación de bacterias de importancia clínica. Editorial Médica Panamericana. 1980.

-Suzzi, G., Lanorte, M. T., Galgano, F., Andrighetta, C., Lombardi, A., Lanciotti, R. & Guerzoni,M. E. Proteolytic, lipolytic and molecular characterization of Yarrowia lipolítica isolated from cheese‖. International Journal of Food Microbiology. 2001; 69: 69-77.

-Kurtzman, C.P., Fell, J.W., Boekhout, T., Robert, V. Methods for isolation, phenotypic characterization and maintenance of yeasts, 5th edn. In: Kurtzman, C.P., Fell, J.W., Boekhout,T. (Eds.), The Yeasts, a Taxonomic Study. Elsevier, Amsterdam 2011; vol. 1.: pp. 87–110.

-Badis A, Guetarni D, Boudjema MB, Henni DJ & Kihal M. Identification and technological properties of lactic acid bacteria isolated from raw goat milk of four Algerian race. Food Microbiol. 2004; 21: 579-588.

-Olarte, C., Sanz, S., Gonzáles-Fandos, E., Torre, P. The effect of a commercial starter culture addition on the ripening of an artisanal goat‘s cheese (Cameros cheese). Journal of Applied Microbiology. 2000; 88: 421–429.

-Mathara JM, Schillinger U, Kutima PM, Mbugua SK, Holzapfel WH. Isolation, identification and characterization of the dominant microorganisms of kulenaoto: the Maasai traditional fermented milk in Kenya. Int J Food Microbiol 2004; 94:269–278.

-Medina, R.; Katz, M.; González, S.; Oliver, G. Characterization of the lactic acid bacteria in ewe´s milk and cheese from Northwest Argentina. Journal of Food Protection. 2001; 64: 559-563.

-Borelli, Beatriz M., Elaine G. Ferreira, Inayara C. A. Lacerda, Glória R. Franco, Carlos A. Rosa. Yeast populations associated with the artisanal cheese produced in the region of Serra da Canastra, Brazil. World Journal of Microbiology and Biotechnology. November. 2006. Volume 22, Issue 11, pp 1115-1119.

-Mehlomakulu, Ngwekazi Nwabisa. Yeasts as adjunct starter cultures in cheese making. Tesis magister. Faculty of Natural and Agricultural Sciences. Department of Microbial, Biochemical and Food Biotechnology. University of the Free State. Bloemfontein. 2011.

-Oliszewski, R. Leche de cabra: su calidad y evaluación de starters lácticos caprinos regionales en la manufactura de productos fermentados. Tesis doctoral. Universidad Nacional de Tucumán. 2006.

-Cheriguene A, Chougrani F, Bekada AMA, El Soda M, Bensoltane A. Enumeration and identification of lactic microflora in Algerian goat's

milk. Afr. J. Biotechnol. 2007; 6(1 5): 1854-1861.

-Herreros, M.A, J.M Fresno, M.J González Prieto, M.E Tornadijo. Technological characterization of

lactic acid bacteria isolated from Armada cheese (a Spanish goats‘milk cheese).International Dairy Journal. 2003; Volume 13, Issue 6, Pages 469–479.

-Settanni, L. and Moschetti, G. Non-starter lactic acid bacteria used to improve cheese quality and provide health benefits. Food Microbiology 2010; 27: 691-697..

-Welthagen, J. J. & Viljoen, B. C. The presence of yeasts in different cheese types. In Yeasts in the dairy industry: positive and negative aspects, Jakobsen, M., Narvhus, J., Viljoen,B.C. (Eds.), Copenhagen, Denmark. International Dairy Federation, Brussels, Belgium. 1998; 78-87.

-Van den Tempel, T.and Jakobsen, M. The technological characteristics of Debaryomyceshansenii and Yarrowialipolytica and their potential as starter cultures for production of Danablu. International Dairy Journal.2000; 10(4): 263–270.

-Klein, N., Zourari, A., Lortal, S. Peptidase activity of four yeast species frequently encountered in dairy products and comparison with several dairy bacteria. International Dairy Journal 2002; 12: 853–861.

-Bintsis, T.; Vafopoulou-Mastrojiannaki, A.; Litopoulou-Tzanetaki, E. and Robinson, R.K. Protease, peptidase and esterase activities by lactobacilli and yeast isolates from Feta cheese brine. Journal of Applied Microbiology 2003; 95: 68–77.

-Trotta, F., Caldini, G., Dominici, L., Federici, E., Tofalo, R., Schirone, M., Corsetti, A.Suzzi,G. and Cenci, G. Food borne yeasts as DNA-bioprotective agents against model genotoxins. International Journal of Food Microbiology. 2012; 153: 275-280.

-Gaborit, P., Menard A., Morgan F. Impact of ripening strains on the typical flavour of goat cheeses. International Dairy Journal 2001;11: 315–325.

-Kamzolova, S.V., Morgunov, G.I., Aurich, A., Perevoznikova, O.A., Shishkanova, N. V.,Stottmeister, U. and Finogenova, T.V. Lipase Secretion and Citric Acid Production in Yarrowia lipolytica Yeast Grown on Animal and Vegetable Fat. Food Technol. Biotechnol. 2006; 43 (2): 113–122.

-Fox P.F. Cheese overview ‖. Academic press, London. 2002.