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Cited 107 time in webofscience Cited 114 time in scopus
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Comparative analyses of lipidomes and transcriptomes reveal a concerted action of multiple defensive systems against photooxidative stress in Haematococcus pluvialis

Authors
Gwak, YunhoHwang, Yong-sicWang, BaobeiKim, MinjuJeong, JooyeonLee, Choul-GyunHu, QiangHan, DanxiangJin, EonSeon
Issue Date
Aug-2014
Publisher
Oxford University Press
Keywords
Astaxanthin; high irradiance; lipidome; photooxidative stress; transcriptome; triacylglycerol
Citation
Journal of Experimental Botany, v.65, no.15, pp 4317 - 4334
Pages
18
Indexed
SCI
SCIE
SCOPUS
Journal Title
Journal of Experimental Botany
Volume
65
Number
15
Start Page
4317
End Page
4334
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/144574
DOI
10.1093/jxb/eru206
ISSN
0022-0957
1460-2431
Abstract
Haematococcus pluvialis cells predominantly remain in the macrozooid stage under favourable environmental conditions but are rapidly differentiated into haematocysts upon exposure to various environmental stresses. Haematocysts are characterized by massive accumulations of astaxanthin sequestered in cytosolic oil globules. Lipidomic analyses revealed that synthesis of the storage lipid triacylglycerol (TAG) was substantially stimulated under high irradiance. Simultaneously, remodelling of membrane glycerolipids occurred as a result of dramatic reductions in chloroplast membrane glycolipids but remained unchanged or declined slightly in extraplastidic membrane glycerolipids. De novo assembly of transcriptomes revealed the genomic and metabolic features of this unsequenced microalga. Comparative transcriptomic analysis showed that so-called resting cells (haematocysts) may be more active than fast-growing vegetative cells (macrozooids) regarding metabolic pathways and functions. Comparative transcriptomic analyses of astaxanthin biosynthesis suggested that the non-mevalonate pathway mediated the synthesis of isopentenyl diphosphate, as the majority of genes involved in subsequent astaxanthin biosynthesis were substantially up-regulated under high irradiance, with the genes encoding phytoene synthase, phytoene desaturase, and beta-carotene hydroxylase identified as the most prominent regulatory components. Accumulation of TAG under high irradiance was attributed to moderate up-regulation of de novo fatty acid biosynthesis at the gene level as well as to moderate elevation of the TAG assembly pathways. Additionally, inferred from transcriptomic differentiation, an increase in reactive oxygen species (ROS) scavenging activity, a decrease in ROS production, and the relaxation of over-reduction of the photosynthetic electron transport chain will work together to protect against photooxidative stress in H. pluvialis under high irradiance.
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