Comparative Quantitative Proteomics Reveals the Desiccation Stress Responses of the Intertidal Seaweed NEOPORPHYRA haitanensis

Neoporphyra haitanensis is an economically important red seaweed that inhabits upper intertidal zones. The thallus tolerates extreme fluctuating environmental stresses (e.g., surviving more than 80% water loss during low tides). To elucidate the global molecular responses relevant to this outstandin...

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Bibliographic Details
Published in:Journal of phycology 2020-12, Vol.56 (6), p.1664-1675
Main Authors: Wang, Dongmei, You, Wuxin, Chen, Nianci, Cao, Min, Tang, Xianghai, Guan, Xiaowei, Qu, Weihua, Chen, Rui, Mao, Yunxiang, Poetsch, Ansgar, Oliveira, M.
Format: Article
Language:English
Subjects:
Acetates
Acetic acid
Acetylation
Algae
antioxidant system
Antioxidants
Ascorbic acid
Biosynthesis
Carbon fixation
Clustering
Desiccation
Economic conditions
Economic importance
Environmental stress
Genetic engineering
Glutathione
Glutathione peroxidase
Glutathione reductase
Histones
Homeostasis
Hormones
Intertidal environment
Intertidal zone
L-Ascorbate peroxidase
label‐free proteomics
LEA and chaperone proteins
Lipids
Neoporphyra haitanensis
Oxidoreductions
Peptidylprolyl isomerase
Peroxidase
Peroxiredoxin
Phosphorylation
Photosynthesis
polysaccharides
Protection
Protein structure
Proteins
Proteomics
Reductases
Rehydration
Scavenging
Seaweed
Seaweeds
Signal transduction
Signaling
signaling transduction
Starch
Stress, Physiological
Stresses
Superoxide dismutase
Survival
Thallus
Water loss
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Summary:Neoporphyra haitanensis is an economically important red seaweed that inhabits upper intertidal zones. The thallus tolerates extreme fluctuating environmental stresses (e.g., surviving more than 80% water loss during low tides). To elucidate the global molecular responses relevant to this outstanding desiccation tolerance, a quantitative proteomics analysis of N. haitanensis under different desiccation treatments as well as rehydration was performed. According to the clustering of expression patterns and the functional interpretation of the 483 significantly differentially expressed proteins, a three‐stage cellular response to desiccation stress and subsequent rehydration was proposed. Stage I: at the beginning of water loss, multiple signal transduction pathways were triggered including lipid signaling, protein phosphorylation cascades, and histone acetylation controlling acetate biosynthesis to further modulate downstream hormone signaling. Protein protection by peptidyl‐prolyl isomerase and ROS scavenging systems were also immediately switched on. Stage II: with the aggravation of stress, increases in antioxidant systems, the accumulation of LEA proteins, and the temporary biosynthesis of branched starch were observed. Multiple enzymes involved in redox homeostasis, including peroxiredoxin, thioredoxin, ascorbate peroxidase, superoxide dismutase, glutathione peroxidase, and glutathione reductase, were hypothesized to function in specific cellular compartments. Stage III: when the desiccated thalli had rehydrated for 30 mins, photosynthesis and carbon fixation were recovered, and antioxidant activities and protein structure protection were maintained at a high level. This work increases the understanding of the molecular responses to environmental stresses via a proteomic approach in red seaweeds and paves the way for further functional studies and genetic engineering.
ISSN:0022-3646
1529-8817
DOI:10.1111/jpy.13052