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Main Authors: Deng, Xiao Dong, Wang, Meng, Liu, Si Hang, Xu, Dian Long, Fei, Xiao Wen
Format: Artículo científico
Language:en
Published: Frontiers in plant science 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/40166727/
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author Deng, Xiao Dong
Wang, Meng
Liu, Si Hang
Xu, Dian Long
Fei, Xiao Wen
author_facet Deng, Xiao Dong
Wang, Meng
Liu, Si Hang
Xu, Dian Long
Fei, Xiao Wen
Deng, Xiao Dong
Wang, Meng
Liu, Si Hang
Xu, Dian Long
Fei, Xiao Wen
collection PubMed - marine biology
contents Effects of the gene of the SCF complex on lipid metabolism and response to abiotic stress in . Deng, Xiao Dong Wang, Meng Liu, Si Hang Xu, Dian Long Fei, Xiao Wen SKP1 (S-phase kinase-associated protein 1) is a key member of the SCF (SKP1-Cullin1-F-box) E3 ligase complex. The SCF complex is involved in regulating various levels of plant physiology, including regulation of cellular signaling and response to abiotic stresses. While the function of SKP1 in plants is well known, its function in algae remains poorly understood. In this study, we investigated the role of the gene using RNAi interference and overexpression approaches. Subcellular localization of SKP1 was performed by transient expression in onion epidermal cells. For abiotic stress assays, the growth of RNAi and overexpression recombinant strains was examined under conditions of high osmolality (sorbitol), high salinity (NaCl) and high temperature (37°C). Our results showed that silencing significantly reduced oil accumulation by 38%, whereas expressing led to a 37% increase in oil content, suggesting that plays a crucial role in regulating oil synthesis and may influence lipid accumulation by regulating photosynthetic carbon flux partitioning. Subcellular localization analysis revealed that was predominantly localized within the nucleus. Furthermore, our results showed that SKP1 responds to abiotic stresses. Under sorbol and NaCl stress conditions, RNAi interference strains exhibited better growth than controls; however, their growth was comparatively impaired under 37°C stress compared to controls. On the other hand, overexpression strains showed weaker growth under sorbol and NaCl stress but were more tolerant to 37°C heat stress. These results illustrate the functional diversity of SKP1 in . This study provides an important complement for lipid metabolism and abiotic stress regulation in microalgae.
format Artículo científico
id pubmed_40166727
institution PubMed
language en
publishDate 2025
publisher Frontiers in plant science
record_format pubmed
spellingShingle Effects of the gene of the SCF complex on lipid metabolism and response to abiotic stress in .
Deng, Xiao Dong
Wang, Meng
Liu, Si Hang
Xu, Dian Long
Fei, Xiao Wen
Effects of the gene of the SCF complex on lipid metabolism and response to abiotic stress in . Deng, Xiao Dong Wang, Meng Liu, Si Hang Xu, Dian Long Fei, Xiao Wen SKP1 (S-phase kinase-associated protein 1) is a key member of the SCF (SKP1-Cullin1-F-box) E3 ligase complex. The SCF complex is involved in regulating various levels of plant physiology, including regulation of cellular signaling and response to abiotic stresses. While the function of SKP1 in plants is well known, its function in algae remains poorly understood. In this study, we investigated the role of the gene using RNAi interference and overexpression approaches. Subcellular localization of SKP1 was performed by transient expression in onion epidermal cells. For abiotic stress assays, the growth of RNAi and overexpression recombinant strains was examined under conditions of high osmolality (sorbitol), high salinity (NaCl) and high temperature (37°C). Our results showed that silencing significantly reduced oil accumulation by 38%, whereas expressing led to a 37% increase in oil content, suggesting that plays a crucial role in regulating oil synthesis and may influence lipid accumulation by regulating photosynthetic carbon flux partitioning. Subcellular localization analysis revealed that was predominantly localized within the nucleus. Furthermore, our results showed that SKP1 responds to abiotic stresses. Under sorbol and NaCl stress conditions, RNAi interference strains exhibited better growth than controls; however, their growth was comparatively impaired under 37°C stress compared to controls. On the other hand, overexpression strains showed weaker growth under sorbol and NaCl stress but were more tolerant to 37°C heat stress. These results illustrate the functional diversity of SKP1 in . This study provides an important complement for lipid metabolism and abiotic stress regulation in microalgae.
title Effects of the gene of the SCF complex on lipid metabolism and response to abiotic stress in .
url https://pubmed.ncbi.nlm.nih.gov/40166727/