Modelling neutral lipid production by the microalga Isochrysis aff. galbana under nitrogen limitation

Bioresource Technology
Francis MairetAntoine Sciandra

Abstract

This article proposes a dynamical model of microalgal lipid production under nitrogen limitation. In this model, intracellular carbon is divided between a functional pool and two storage pools (sugars and neutral lipids). The various intracellular carbon flows between these pools lead to a complex dynamic with a strong discrepancy between synthesis and mobilization of neutral lipids. The model has been validated with experiments of Isochrysis aff. galbana (clone T-iso) culture under various nitrogen limitation conditions and under nitrogen starvation. The hysteresis behavior of the neutral lipid quota observed experimentally is accurately predicted.

References

Jul 1, 1995·The Plant Cell·J Ohlrogge, J Browse
May 1, 1995·Mathematical Biosciences·O Bernard, J L Gouzé
Jul 12, 1996·Biochimica Et Biophysica Acta·G A Thompson
Mar 14, 2007·Biotechnology Advances·Yusuf Chisti
Apr 14, 2009·Bioresource Technology·Chih-Hung Hsieh, Wen-Teng Wu
May 12, 2010·Bioresource Technology·Jian-Ming LvHuan-Lin Chen

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Citations

Aug 28, 2013·Bioprocess and Biosystems Engineering·Philipp HartmannOlivier Bernard
Feb 16, 2013·Bioprocess and Biosystems Engineering·Francis MairetOlivier Bernard
Apr 15, 2014·Bioprocess and Biosystems Engineering·Dongmei ZhangWei Cong
Nov 26, 2015·Critical Reviews in Biotechnology·Ejovwokoghene C OdjadjareAdemola O Olaniran
May 4, 2011·Bioresource Technology·Francis MairetJean-Philippe Steyer
Jan 30, 2013·Biotechnology Progress·Rafael Muñoz-TamayoOlivier Bernard
Sep 15, 2011·Biotechnology and Bioengineering·Jason C QuinnThomas H Bradley
Sep 4, 2015·Bioprocess and Biosystems Engineering·Ines SaraivaAnne-Lise Hantson
Mar 18, 2015·Biotechnology Advances·Bruno D FernandesAntonio A Vicente
Jun 3, 2015·Bioprocess and Biosystems Engineering·Micaela BenavidesAlain Vande Wouwer
Apr 21, 2016·Bioprocess and Biosystems Engineering·Sung Jin YooJong Min Lee
Sep 4, 2012·Bioresource Technology·Olivier Bernard, Barbara Rémond
Feb 18, 2011·Bioresource Technology·Jason QuinnThomas Bradley
Apr 4, 2015·Bioresource Technology·Guido BreuerDirk E Martens
Aug 6, 2013·Bioresource Technology·Anne J KlokRené H Wijffels
Aug 18, 2016·Biotechnology and Bioengineering·Anja Pia KollerDirk Weuster-Botz
Dec 31, 2017·Biotechnology and Bioengineering·Carlos E Robles-RodríguezCésar A Aceves-Lara
Jul 25, 2017·Biotechnology Progress·Todd Hurst, Volker Rehbock
Oct 25, 2011·Biotechnology and Bioengineering·Francis MairetBenoît Chachuat
Jan 3, 2013·Biotechnology and Bioengineering·M H HuesemannB Crowe
Apr 1, 2014·Journal of Phycology·Kim J M MuldersRené H Wijffels
Jan 4, 2020·BMC Bioinformatics·Melanie FachetKai Sundmacher
Mar 13, 2021·Biotechnology for Biofuels·Gonzalo M Figueroa-TorresConstantinos Theodoropoulos
Aug 12, 2020·Biotechnology Advances·Mesut BekirogullariConstantinos Theodoropoulos
Apr 11, 2021·Biotechnology Advances·Fabrizio Di Caprio
Aug 27, 2019·Environmental Science & Technology·Diyuan WangJoel J Ducoste
Dec 13, 2018·Environmental Science & Technology·Anna C FeddersJeremy S Guest

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