Frada 2013 J Phycol
Frada MJ, Burrows EH, Wyman KD, Falkowski PG (2013) Quantum requirements for growth and fatty acid biosynthesis in the marine diatom Phaeodactylum tricornutum (Bacillariophyceae) in nitrogen replete and limited conditions. J Phycol 49:381-388. |
Frada Miguel J, Burrows Elizabeth H, Wyman Kevin D, Falkowski Paul G (2013) J Phycol
Abstract: We determined the quantum requirements for growth (1/ΟΞΌ ) and fatty acid (FA) biosynthesis (1/ΟFA ) in the marine diatom, Phaeodactylum tricornutum, grown in nutrient replete conditions with nitrate or ammonium as nitrogen sources, and under nitrogen limitation, achieved by transferring cells into nitrogen free medium or by inhibiting nitrate assimilation with tungstate. A treatment in which tungstate was supplemented to cells grown with ammonium was also included. In nutrient replete conditions, cells grew exponentially and possessed virtually identical 1/ΟΞΌ of 40-44 mol photons Β· mol C(-1) . In parallel, 1/ΟFA varied between 380 and 409 mol photons Β· mol C(-1) in the presence of nitrate, but declined to 348 mol photons Β· mol C(-1) with ammonium and to 250 mol photons Β· mol C(-1) with ammonium plus tungstate, indicating an increase in the efficiency of FA biosynthesis relative to cells grown on nitrate of 8% and 35%, respectively. While the molecular mechanism for this effect remains poorly understood, the results unambiguously reveal that cells grown on ammonium are able to direct more reductant to lipids. This analysis suggests that when cells are grown with a reduced nitrogen source, fatty acid biosynthesis can effectively become a sink for excess absorbed light, compensating for the absence of energetically demanding nitrate assimilation reactions. Our data further suggest that optimal lipid production efficiency is achieved when cells are in exponential growth, when nitrate assimilation is inhibited, and ammonium is the sole nitrogen source.
β’ Bioblast editor: Huete-Ortega Maria
Labels:
Algae, Photosynthesis, MitoFit 2021 Photosynthesis
- Huete-Ortega et al (2021) Substrate-uncoupler-inhibitor-titration protocols for photosynthesis in Chlamydomonas reinhardtii. MitoFit Preprints 2021 (in prep).