MYB41, MYB107, and MYC2 promote ABA-mediated primary fatty alcohol accumulation via activation of AchnFAR in wound suberization in kiwifruit

Wound damage triggers the accumulation of abscisic acid (ABA), which induces the expression of a large number of genes involved in wound suberization in plants. Fatty acyl-CoA reductase (FAR) catalyzes the generation of primary fatty alcohols by the reduction of fatty acids in suberin biosynthesis....

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Bibliographic Details
Published in:Horticulture research 2020-06, Vol.7 (1), Article 86
Main Authors: Wei, Xiaopeng, Mao, Linchun, Wei, Xiaobo, Xia, Ming, Xu, Changjie
Format: Article
Language:English
Subjects:
631/449/1736
631/449/2661/1880
Abscisic acid
Accumulation
Actinidia
Agriculture
Alcohol
Alcohols
Aliphatic compounds
Biomedical and Life Sciences
Biosynthesis
Damage accumulation
Ecology
Fatty acids
Genes
Kiwifruit
Leaves
Life Sciences
Nicotiana benthamiana
Plant Breeding/Biotechnology
Plant Genetics and Genomics
Plant Sciences
Reductase
Reductases
Tobacco
Transcription factors
Wounds
Yeasts
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Summary:Wound damage triggers the accumulation of abscisic acid (ABA), which induces the expression of a large number of genes involved in wound suberization in plants. Fatty acyl-CoA reductase (FAR) catalyzes the generation of primary fatty alcohols by the reduction of fatty acids in suberin biosynthesis. However, the regulatory effects of transcription factors (TFs) on AchnFAR in response to ABA are unexplored. In this study, kiwifruit AchnFAR displayed a biological function analogous to that of FAR in transiently overexpressed tobacco ( Nicotiana benthamiana ) leaves. The positive role of TFs, including AchnMYB41, AchnMYB107, and AchnMYC2, in the regulation of AchnFAR was identified. The three TFs could individually bind to the AchnFAR promoter to activate gene transcription in yeast one-hybrid and dual-luciferase assays. Transient overexpression of TFs in tobacco leaves resulted in the upregulation of aliphatic synthesis genes (including FAR ) and the increase in aliphatics, including primary alcohols, α,ω-diacids, ω-hydroxyacids, and fatty acids. Moreover, exogenous ABA treatment elevated TF-mediated AchnFAR expression and the accumulation of primary alcohols. Conversely, fluridone, an inhibitor of ABA biosynthesis, suppressed the expression of AchnFAR and TF genes and reduced the formation of primary alcohols. The results indicate that AchnMYB41, AchnMYB107, and AchnMYC2 activate AchnFAR transcription to promote ABA-mediated primary alcohol formation in wound suberization in kiwifruit.
ISSN:2662-6810
2052-7276
DOI:10.1038/s41438-020-0309-1