Effect of membrane rigidification on the BrAFP1 expression and cold-tolerance in Brassica rapa

IntroductionThe cold tolerance of winter rapeseed cultivars is critically important for winter survival and yield formation in northern area. BrAFP1, an antifreeze protein in Brassica rapa, is hypothesized to stabilize membranes and inhibit ice crystal formation.Methodswe cloned the BrAFP1 promoter...

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Published inFrontiers in plant science Vol. 16
Main Authors Dong, Xiaoyun, Wang, Jinxiong, Wei, Jiaping, Zheng, Guoqiang, Wu, Zefeng, Cui, Junmei, Yang, Xuezhen, Li, Baojin, Zhu, Shujun, Sa, Ermei, Yang, Fengpeng, Liu, Zigang
Format Journal Article
LanguageEnglish
Published Frontiers Media S.A 13.08.2025
Subjects
benzyl alcohol
cold tolerance
dimethyl sulfoxide
membrane fluidity
Plant Science
proBrAFP1 activity
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Abstract IntroductionThe cold tolerance of winter rapeseed cultivars is critically important for winter survival and yield formation in northern area. BrAFP1, an antifreeze protein in Brassica rapa, is hypothesized to stabilize membranes and inhibit ice crystal formation.Methodswe cloned the BrAFP1 promoter from the cold-tolerant cultivar Longyou 7 (L7) and constructed the proBrAFP1::GUS expression vector to investigate the impact of membrane state changes on BrAFP1 expression and the cold tolerance in winter rapeseed. Ten independent transgenic T3 lines were generated, among which T3-5 and T3-7 were selected for subsequent analysis.ResultsThe dimethyl sulfoxide (DMSO) treatment in the absence of cold exposure activated the transcriptional activity of proBrAFP1, a cold-inducible promoter; in contrast, benzyl alcohol (BA) treatment eliminated its cold-induced activation. The expression levels of cold-responsive genes, including cyclic nucleotide-gated channel 1 (CNGC1), open stomata 1 (OST1), and inducer of CBF expression 1 (ICE1), as well as membrane fluidity-related genes, such as acyl-lipid desaturase 2 (ADS2), fatty acid desaturase 2 (FAD2), and sensitive to freezing 2 (SFR2), were significantly increased following DMSO pretreatment, while BA treatment significantly inhibited the expression of these genes. Furthermore, ABA and SA levels are closely linked to alterations in the membrane state, compared to untreated plants, the levels of ABA and SA in the leaves markedly increased at 4°C after DMSO and BA treatment but decreased at -4°C.ConclusionCollectively, DMSO pretreatment enhanced cold tolerance, while BA pretreatment improved cell survival under cold stress, which is important for practise of keeping the rapeseed yields.
AbstractList IntroductionThe cold tolerance of winter rapeseed cultivars is critically important for winter survival and yield formation in northern area. BrAFP1, an antifreeze protein in Brassica rapa, is hypothesized to stabilize membranes and inhibit ice crystal formation.Methodswe cloned the BrAFP1 promoter from the cold-tolerant cultivar Longyou 7 (L7) and constructed the proBrAFP1::GUS expression vector to investigate the impact of membrane state changes on BrAFP1 expression and the cold tolerance in winter rapeseed. Ten independent transgenic T3 lines were generated, among which T3-5 and T3-7 were selected for subsequent analysis.ResultsThe dimethyl sulfoxide (DMSO) treatment in the absence of cold exposure activated the transcriptional activity of proBrAFP1, a cold-inducible promoter; in contrast, benzyl alcohol (BA) treatment eliminated its cold-induced activation. The expression levels of cold-responsive genes, including cyclic nucleotide-gated channel 1 (CNGC1), open stomata 1 (OST1), and inducer of CBF expression 1 (ICE1), as well as membrane fluidity-related genes, such as acyl-lipid desaturase 2 (ADS2), fatty acid desaturase 2 (FAD2), and sensitive to freezing 2 (SFR2), were significantly increased following DMSO pretreatment, while BA treatment significantly inhibited the expression of these genes. Furthermore, ABA and SA levels are closely linked to alterations in the membrane state, compared to untreated plants, the levels of ABA and SA in the leaves markedly increased at 4°C after DMSO and BA treatment but decreased at -4°C.ConclusionCollectively, DMSO pretreatment enhanced cold tolerance, while BA pretreatment improved cell survival under cold stress, which is important for practise of keeping the rapeseed yields.
Author Zheng, Guoqiang
Yang, Xuezhen
Dong, Xiaoyun
Wei, Jiaping
Sa, Ermei
Li, Baojin
Yang, Fengpeng
Cui, Junmei
Liu, Zigang
Wang, Jinxiong
Wu, Zefeng
Zhu, Shujun
AuthorAffiliation 4 Research and Development Center, Gansu Seed Industry Company Limited , Lanzhou ,  China
1 State Key Laboratory of Aridland Crop Science, College of Agronomy, Gansu Agricultural University , Lanzhou ,  China
2 Agricultural Research Institute, Tibet Academy of Agriculture and Animal Husbandry Sciences , Lasa ,  China
3 Seed Industry Development Section, Pingliang Seed Station , Pingliang ,  China
AuthorAffiliation_xml – name: 3 Seed Industry Development Section, Pingliang Seed Station , Pingliang ,  China
– name: 1 State Key Laboratory of Aridland Crop Science, College of Agronomy, Gansu Agricultural University , Lanzhou ,  China
– name: 4 Research and Development Center, Gansu Seed Industry Company Limited , Lanzhou ,  China
– name: 2 Agricultural Research Institute, Tibet Academy of Agriculture and Animal Husbandry Sciences , Lasa ,  China
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Zhansheng Li, Chinese Academy of Agricultural Sciences, China
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Snippet IntroductionThe cold tolerance of winter rapeseed cultivars is critically important for winter survival and yield formation in northern area. BrAFP1, an...
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SubjectTerms benzyl alcohol
cold tolerance
dimethyl sulfoxide
membrane fluidity
Plant Science
proBrAFP1 activity
Title Effect of membrane rigidification on the BrAFP1 expression and cold-tolerance in Brassica rapa
URI https://pubmed.ncbi.nlm.nih.gov/PMC12380914
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