Your search keyword '"Inga Aamot"' showing total 2 results

1. Divinyl chlorophyllain the marine eukaryotic protistAlexandrium ostenfeldii(Dinophyceae)

Author

José Franco, Isabel Ramilo, Francisco Rodríguez, Geir Johnsen, Pilar Riobó, Anke Kremp, Noelia Sanz, José L. Garrido, Cristina Sobrino, and Inga Aamot

Subjects

0301 basic medicine, biology, Toxin, Dinoflagellate, food and beverages, Protist, macromolecular substances, Reductase, biology.organism_classification, medicine.disease_cause, Photosynthesis, Microbiology, Fluorescence, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, Biosynthesis, chemistry, Biochemistry, Botany, polycyclic compounds, medicine, 14. Life underwater, Ecology, Evolution, Behavior and Systematics, Dinophyceae

Abstract

Here it is reported the first detection of DV-chl a together with the usual chl a in the marine dinoflagellate Alexandrium ostenfeldii from the Baltic Sea. Growth response and photosynthetic parameters were examined at two irradiances (80 and 240 μmol photons m(-2) s(-1)) and temperatures (15 °C and 19 °C) in a divinylic strain (AOTV-OS20) versus a monovinylic one (AOTV-OS16), using in vivo chl a fluorescence kinetics of PSII to characterize photosynthetic parameters by pulse amplitude modulated fluorescence, (14)C assimilation rates and toxin analyses. The divinylic isolate exhibited slower growth and stronger sensitivity to high irradiance than normal chl a strain. DV-chl a : chl a ratios decreased along time (from 11.3 to < 0.5 after 10 months) and to restore them sub-cloning and selection of strains with highest DV-chl a content was required. A mutation and/or epigenetic changes in the expression of divinyl reductase gene/s in A. ostenfeldii may explain this altered pigment composition. Despite quite severe limitations (reduced fitness and gradual loss of DV-chl a content), the DV-chl a-containing line in A. ostenfeldii could provide a model organism in photosynthetic studies related with chl biosynthesis and evolution.

Published

2015

2. Divinyl chlorophyll a in the marine eukaryotic protist Alexandrium ostenfeldii (Dinophyceae)

Author

Francisco, Rodríguez, José Luis, Garrido, Cristina, Sobrino, Geir, Johnsen, Pilar, Riobó, José, Franco, Inga, Aamot, Isabel, Ramilo, Noelia, Sanz, and Anke, Kremp

Subjects

Chlorophyll, Vinyl Compounds, Chlorophyll A, Oceans and Seas, Butadienes, Dinoflagellida, Temperature, Photosynthesis, Oxidoreductases, Fluorescence

Abstract

Here it is reported the first detection of DV-chl a together with the usual chl a in the marine dinoflagellate Alexandrium ostenfeldii from the Baltic Sea. Growth response and photosynthetic parameters were examined at two irradiances (80 and 240 μmol photons m(-2) s(-1)) and temperatures (15 °C and 19 °C) in a divinylic strain (AOTV-OS20) versus a monovinylic one (AOTV-OS16), using in vivo chl a fluorescence kinetics of PSII to characterize photosynthetic parameters by pulse amplitude modulated fluorescence, (14)C assimilation rates and toxin analyses. The divinylic isolate exhibited slower growth and stronger sensitivity to high irradiance than normal chl a strain. DV-chl a : chl a ratios decreased along time (from 11.3 to0.5 after 10 months) and to restore them sub-cloning and selection of strains with highest DV-chl a content was required. A mutation and/or epigenetic changes in the expression of divinyl reductase gene/s in A. ostenfeldii may explain this altered pigment composition. Despite quite severe limitations (reduced fitness and gradual loss of DV-chl a content), the DV-chl a-containing line in A. ostenfeldii could provide a model organism in photosynthetic studies related with chl biosynthesis and evolution.

Published

2015