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scopus(8)
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: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: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:scopusCauses of shear sensitivity of the toxic dinoflagellate protoceratium reticulatum
ArticleAbstract: Dinoflagellates have proven extremely difficult to culture because they are inhibited by lowlevel shPalabras claves:Dinoflagellates, Lipoperoxide, microalgae, Oxidative Stress, Protoceratium reticulatum, Shear sensitivity, TurbulenceAutores:Belarbi E.H., Chisti Y., García M.D.C.C., García-Camacho F., Juan José Gallardo-Rodríguez, Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusNew insights into shear-sensitivity in dinoflagellate microalgae
ArticleAbstract: A modification of a flow contraction device was used to subject shear-sensitive microalgae to well-dPalabras claves:Dinoflagellate, Flow contraction device, Membrane fluidity, microalgae, Shear-sensitivityAutores:Chalmers J.J., García-Camacho F., Juan José Gallardo-Rodríguez, López-Rosales L., Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusPhotobioreactor scale-up for a shear-sensitive dinoflagellate microalga
ArticleAbstract: Large scale culture of marine dinoflagellate microalgae has proved difficult owing to their extremePalabras claves:Dinoflagellates, microalgae, Photobioreactors, Protoceratium reticulatum, Shear rate, YessotoxinsAutores:Belarbi E.H., Chisti Y., García-Camacho F., Juan José Gallardo-Rodríguez, Molina-Grima E., Sánchez-Mirón A.Fuentes:scopusLong-term biofouling formation mediated by extracellular proteins in Nannochloropsis gaditana microalga cultures at different medium N/P ratios
ArticleAbstract: Biofouling represents an important limitation in photobioreactor cultures. The biofouling propensityPalabras claves:cell adhesion, extracellular organic substances, extracellular proteins, microalgae, N/P ratioAutores:García M.D.C.C., García-Camacho F., Juan José Gallardo-Rodríguez, López-Rosales L., Molina-Grima E., Sánchez-Mirón A., Soriano‐Jerez Y.Fuentes:scopusRapid method for the assessment of cell lysis in microalgae cultures
ArticleAbstract: A solid understanding of the effect of hydrodynamic forces encountered by microalgae in bioprocessesPalabras claves:Cell lysis, Dinoflagellate, LDH, microalgae, ViabilityAutores:García-Camacho F., Juan José Gallardo-Rodríguez, López-Rosales L., Molina-Grima E., Sánchez-Mirón A.Fuentes:scopus