Antera Martel Quintana
Dr. Antera Martel Quintana is a researcher in Algal Biotechnology at the Institute of Oceanography and Global Change and the Spanish Bank of Algae, Master in Applied Algology and Ph.D. in Marine Sciences (1993). She did her scientific training at the Department of Physiology Botany (University of Uppsala, Sweden) and the University of Florida (Miami, USA). Currentl, she is Co-Director and Curator of Spanish Bank of Algae and has experience in biotechnology, physiology, cultivation and conservation of biodiversity of microalgae and cyanobacteria.
Research interest: Algal Biotechnology. In the last years, the interest focused on the development of biotechnological processes of algae in general, and microalgae and cyanobacteria in particular, is high. The Spanish Bank of Algae (BEA) holds an authorized culture collection of tropical and subtropical microalgae, cyanobacteria and extremophiles, particularly from the Macaronesian region. General objectives of the collection include sampling and bio-prospecting, isolation, identification, characterization, conservation and supply of strains, extracts and genomic DNA for scientific and industrial purposes, based on culture techniques. The biotechnological potential for the development of industrial applications of these strains, many of them not assayed before and therefore considering access to unique genetic resources, is interesting for fields like food and feed, nutraceuticals, biomedicine, cosmetics, aquaculture and agriculture.
Considering this idea, research lines include: (1) development of biodiversity conservation techniques for microalgae and cyanobacteria; (2) strains identification combining morphological features, chemotaxonomy, phylogeny and metagenomics; (3) development of biomarkers for biochemistry, molecular biology and flow cytometry; (4) Harmful Algal Blooms (HABs): detection, control and prevention; (5) technological developments for the production and identification of bioactive compounds; and (6) biotechnological characterization of strains for industrial applications.
Through a wide experience in laboratory and pilot-scale cultivation of marine macroalgae, microalgae and cyanobacteria, research objectives include also physiological and biochemical studies on biomass production, transformation and the development of wastewaters and CO2 biofiltration systems by using algae.
- Culture Collections
Tena Pérez, V., Apaza Ticona, L., Cabanillas, A.H., Maderuelo Corral, S., Perlese, J., Rosero Valencia, F.R., Martel Quintana, A., Ortega Domenech, M., Rumbero Sánchez, R., 2020. Antitumoral potential of carbamidocyclophanes and carbamidocylindrofridin A isolated from the cyanobacterium Cylindrospermum stagnale BEA 0605B. Phytochemistry, 180, 112529. https://doi.org/10.1016/j.phytochem.2020.112529
Cabanillas, A., Tena-Pérez, V., Maderuelo-Corral, S., Rosero-Valencia, D. F., Martel-Quintana, A., Ortega-Domenech, M., Rumbero-Sánchez, A., 2018. Cybastacines A and B: Antibiotic Sesterterpenes from a Nostoc sp. Cyanobacterium. J. Nat. Prod. 81, 2, 410-413. https://doi.org/10.1021/acs.jnatprod.7b00638
Gomez Pinchetti, J. L., Martel, A., 2016. Algae Production and Their Potential Contribution to a Nutritional Sustainability. Journal of Environment and Health Sciences 2(3): 1- 3. http://www.ommegaonline.org/article-details/Algae-Production-and-Their-Potential-Contribution-to-a-Nutritional-Sustainability/1101
Caisova, L., Pérez Reyes, C., Cruz Álamo, V., Martel Quintana, A., Surek, B., Melkonian, M., 2015. Barrancaceae: A new green algal lineage with structural and behavioral adaptations to a fluctuating environment. American Journal of Botany, 102(9):1482-1492. http://dx.doi.org/10.3732/ajb.1500199
de la Jara, A., Mendoza, H., Martel, A., Molina, C., Nordströn, L., de la Rosa, V., Díaz, R., 2003. Flow cytometric determination of lipid content in a marine dinoflagellate, Crypthecodinium cohnii. Journal of Applied Phycology, 15 (No.5), 433-438. http://dx.doi.org/10.1023/A:1026007902078