Influence of exogenous phytohormone supplementation on the pigment and fatty acid content of three marine diatoms

Diatoms are ubiquitous photosynthetic microorganisms with great potential for biotechnological applications. However, their commercialisation is hampered by production costs, requiring hence optimisation of cultivation methods. Phytohormones are plant growth regulators which may be used to influence...

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Bibliographic Details
Published in:Applied microbiology and biotechnology 2022-09, Vol.106 (18), p.6195-6207
Main Authors: Fierli, David, Aranyos, Anita, Barone, Maria Elena, Parkes, Rachel, Touzet, Nicolas
Format: Article
Language:English
Subjects:
Abscisic acid
Algae
Analysis
Applied Microbial and Cell Physiology
Aquatic microorganisms
Bacillariophyceae
Biomedical and Life Sciences
Biotechnology
Carotene
Commercialization
Diatoms
Eicosapentaenoic acid
Fatty acids
Food and nutrition
Fucoxanthin
Gibberellic acid
Growth regulators
Identification and classification
Indoleacetic acid
Influence
Life Sciences
Lipids
Marine microorganisms
Methyl jasmonate
Microalgae
Microbial Genetics and Genomics
Microbiology
Microorganisms
Nitzschia
Optimization
Photosynthesis
Physiological aspects
Phytohormones
Pigments
Plankton
Plant growth
Plant hormones
Plant pigments
Production costs
Salicylic acid
Species
Stauroneis
Supplements
β-Carotene
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Summary:Diatoms are ubiquitous photosynthetic microorganisms with great potential for biotechnological applications. However, their commercialisation is hampered by production costs, requiring hence optimisation of cultivation methods. Phytohormones are plant growth regulators which may be used to influence physiological processes in microalgae, including diatoms. In this study, the model species Phaeodactylum tricornutum ( Phaeodactylaceae ) and two Irish isolates of Stauroneis sp. ( Stauroneidaceae ) and Nitzschia sp. ( Bacillariaceae ) were grown with varying amounts of the phytohormones indoleacetic acid (IAA), gibberellic acid (GA3), methyl jasmonate (MJ), abscisic acid (ABA) or salicylic acid (SA), and their influence on pigment and fatty acid profiles was monitored. The application of GA3 (200 mg/l) stimulated the growth of P. tricornutum which accumulated 52% more dry biomass compared to the control and concomitantly returned the highest eicosapentaenoic acid (EPA) yield (0.6 mg/l). The highest fucoxanthin yield (0.18 mg/l) was obtained for P. tricornutum cultivated with GA3 (2 mg/l) supplementation. In Stauroneis sp., SA (1 mg/l) had the most positive effect on EPA, the content of which was enhanced up to 45.7 μg/mg (4.6% of total dry weight). The SA (1 mg/l) treatment also boosted carotenogenesis in Nitzschia sp., leading to 1.7- and 14-fold increases in fucoxanthin and β-carotene compared to the control, respectively. Of note, MJ (0.5 mg/l) increased the EPA content of all diatom species compared to their controls. These results indicate that phytohormone-based treatments can be used to alter the pigment and lipid content of microalgae, which tend to respond in dose- and species-specific manners to individual compounds. Key points • Response to phytohormones was investigated in diatoms from distinct families . • MJ (0.5 mg/l) caused an increase in EPA cellular content in all three diatoms . • Phytohormones mostly caused dose-dependent and species-specific responses .
ISSN:0175-7598
1432-0614
DOI:10.1007/s00253-022-12140-5