Metabolomics integrated with transcriptomics and proteomics: Evaluation of systems reaction to nitrogen deficiency stress in microalgae

[Display omitted] •Review reports on physiological and biochemical reaction to N-stress in microalgae.•Lipid and carbohydrate increased and protein decreased in N-stressed cells.•During nitrogen deprivation, radicals are overproduced creating oxidative stress.•The increase in cellular oxidative stre...

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Published inProcess biochemistry (1991) Vol. 91; pp. 1 - 14
Main Authors Nagappan, Senthil, Devendran, Saravanan, Tsai, Pei-Chien, Jayaraman, Hariharan, Alagarsamy, Vardhini, Pugazhendhi, Arivalagan, Ponnusamy, Vinoth Kumar
Format Journal Article
LanguageEnglish
Published Barking Elsevier Ltd 01.04.2020
Elsevier BV
Subjects
Accumulation
Algae
Antioxidants
Biodiesel fuels
Biofuel
Biofuels
Biogas
Biomass
Carbohydrates
Deprivation
Ethanol
Free radicals
Glycolysis
Lipids
Metabolomics
Microalgae
Nitrogen
Nitrogen deprivation
Oxidative stress
Pentose
Pentose phosphate pathway
Proteomic
Proteomics
Pyruvate dehydrogenase (lipoamide)
Pyruvic acid
Systems analysis
Transcriptomic
Metabolomics
PDAT
PS
MUFA
Proteomic
LC-FACS
Biofuel
SFA
NADH
Transcriptomic
DGTS
ACC
LPAAT
PUFA
Nitrogen deprivation
DGAT
Microalgae
ACP
TCA
FAME
EAR
MGDG
FAS
TAG
KAS
ATP
GPAT
PAP
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Summary:[Display omitted] •Review reports on physiological and biochemical reaction to N-stress in microalgae.•Lipid and carbohydrate increased and protein decreased in N-stressed cells.•During nitrogen deprivation, radicals are overproduced creating oxidative stress.•The increase in cellular oxidative stress causes the accumulation of lipids. Microalgae have higher productivity of biomass than the conventional crops of fuel and are therefore, considered a potential biofuel source. Lipid, an important precursor of biodiesel, can be overproduced in microalgae by nitrogen deprivation. During nitrogen deficiency, radicals are overproduced, and the antioxidant levels are insufficient to counteract the radicals. Thus, the increase in cellular oxidative stress level, consequently acts as a stimulus for lipid accumulation. Lipid accumulation requires an excess of acetyl CoA and NADPH that is made possible by the following mechanism. Glycolysis upregulation overproduces pyruvate, which could be further transformed into acetyl CoA by the pyruvate dehydrogenase complex; while the upregulation of the oxidative pentose phosphate cycle generates a high amount of NADPH. In addition to lipid overproduction, the lack of nitrogen often causes the accumulation of carbohydrates in selected species of microalgae, which could be used to generate biogas and bioethanol from the defatted biomass. By providing details on the differential regulation of the biochemical pathways leading to lipid and carbohydrate accumulation in nitrogen starved microalgae, the review opens up new possibilities in the microalgal biofuel production.
ISSN:1359-5113
1873-3298
DOI:10.1016/j.procbio.2019.11.027