Mostrando 10 resultados de: 40
Publisher
Journal of Applied Phycology(4)
Bioresource Technology(3)
Biotechnology Progress(3)
Process Biochemistry(3)
Toxins(3)
Bioactives from microalgal dinoflagellates
ReviewAbstract: Dinoflagellate microalgae are an important source of marine biotoxins. Bioactives from dinoflagellatPalabras claves:Dinoflagellates, Marine toxins, microalgae, Photobioreactor, Shear-sensitivityAutores:Chisti Y., García-Camacho F., Juan José Gallardo-Rodríguez, López-Rosales L., Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusBiotechnological significance of toxic marine dinoflagellates
ReviewAbstract: Dinoflagellates are microalgae that are associated with the production of many marine toxins. ThesePalabras claves:Algal toxins, Ciguatera fish poisoning, Diarrhetic shellfish poisoning, Dinoflagellates, Marine toxins, Neurotoxic shellfish poisoning, Paralytic Shellfish PoisoningAutores:Belarbi E.H., Chisti Y., García M.D.C.C., García-Camacho F., Juan José Gallardo-Rodríguez, Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusA critical review on control methods for harmful algal blooms
ReviewAbstract: The impacts of harmful algal blooms on human health, tourism, fisheries and ecosystems have increasePalabras claves:algicides, clays, control, Flocculation, harmful algal bloomsAutores:Astuya-Villalón A., Avello-Fontalba V., Juan José Gallardo-Rodríguez, Llanos-Rivera A., Ulloa-Jofré V.Fuentes:scopusA new culture medium based on genetic algorithms for Isochrysis galbana production relevant to hatcheries
ArticleAbstract: The nutrient content of a commercial seawater culture medium for growing the microalga Isochrysis gaPalabras claves:Aquaculture, fucoxanthin, Genetic Algorithm, Isochrysis galbana, Medium optimization, microalgae, PUFAsAutores:Camacho-Rodríguez J., García M.D.C.C., García-Camacho F., Juan José Gallardo-Rodríguez, Molina-Grima E.Fuentes:scopusDetermination of shear stress thresholds in toxic dinoflagellates cultured in shaken flasks. Implications in bioprocess engineering
ArticleAbstract: Marine dinoflagellates are potentially important innovative sources of high-value toxins in biomedicPalabras claves:damage, Dinoflagellate, microalgae, pluronic, Protoceratium reticulatum, shear stressAutores:Belarbi E.H., García M.D.C.C., García-Camacho F., Juan José Gallardo-Rodríguez, Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusCulture of Microalgal Dinoflagellates
Book PartAbstract: Production of metabolites from microalgal dinoflagellates requires them to be grown in a controlledPalabras claves:Autores:Chisti Y., García-Camacho F., Juan José Gallardo-Rodríguez, López-Rosales L., Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusCulture of dinoflagellates in a fed-batch and continuous stirred-tank photobioreactors: Growth, oxidative stress and toxin production
ArticleAbstract: Dinoflagellates are potentially important sources of high-value toxins in biomedical, toxicologicalPalabras claves:Dinoflagellate, MICROALGA, Oxidative Stress, Photobioreactor, Protoceratium reticulatum, YessotoxinAutores:Belarbi E.H., García M.D.C.C., García-Camacho F., Juan José Gallardo-Rodríguez, Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusCytotoxicity of yessotoxin and okadaic acid in mouse T lymphocyte cell line EL-4
ArticleAbstract: Yessotoxin (YTX) and okadaic acid (OA), algal toxins accumulated in edible shellfish, were previouslPalabras claves:apoptosis, Health risks, Immune cells, Okadaic acid, Toxicity, YessotoxinAutores:García-Camacho F., Juan José Gallardo-Rodríguez, Martín-López A., Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusCFD-based pbkp_rediction of initial microalgal adhesion to solid surfaces using force balances
ArticleAbstract: Adhesion of microalgal cells to photobioreactor walls reduces productivity resulting in significantPalabras claves:cell adhesion, Computational Fluid Dynamics, flow cell, force balance, Nannochloropsis, XDLVOAutores:García M.D.C.C., García-Camacho F., Juan José Gallardo-Rodríguez, Kichouh-Aiadi S., Molina-Grima E., Sánchez-Mirón A., Soriano‐Jerez Y.Fuentes:scopusCarboxymethyl cellulose and Pluronic F68 protect the dinoflagellate Protoceratium reticulatum against shear-associated damage
ArticleAbstract: The red-tide dinoflagellate Protoceratium reticulatum is shown to be protected against turbulence-asPalabras claves:cell cycle, Dinoflagellate, microalgae, Protoceratium reticulatum, shear stress, YessotoxinAutores:Belarbi E.H., Chisti Y., García M.D.C.C., García-Camacho F., Juan José Gallardo-Rodríguez, Molina-Grima E., Sánchez-Mirón A.Fuentes:scopus