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Modification of lignin composition by ectopic expressing wheat TaF5H1 led to decreased salt tolerance in transgenic Arabidopsis plants

Jia, Shuzhen ; Liu, Xiaojun ; Li, Xiaoyue ; Sun, Chen ; Cao, Xiaohong ; Liu, Wei ; Guo, Guangyan ; Bi, Caili

Journal of plant physiology, 2023-08, Vol.287, p.153997-153997, Article 153997 [Periódico revisado por pares]

Germany: Elsevier GmbH

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  • Título:
    Modification of lignin composition by ectopic expressing wheat TaF5H1 led to decreased salt tolerance in transgenic Arabidopsis plants
  • Autor: Jia, Shuzhen ; Liu, Xiaojun ; Li, Xiaoyue ; Sun, Chen ; Cao, Xiaohong ; Liu, Wei ; Guo, Guangyan ; Bi, Caili
  • Assuntos: Ferulate 5-hydroxylase ; pTaF5H1:TaF5H1 ; Salt tolerance ; Syringyl lignin ; Wheat
  • É parte de: Journal of plant physiology, 2023-08, Vol.287, p.153997-153997, Article 153997
  • Notas: ObjectType-Article-1
    SourceType-Scholarly Journals-1
    ObjectType-Feature-2
    content type line 23
  • Descrição: Lignin is an important cell wall component that provides plants with mechanical support and improved tolerance to pathogen attacks. Previous studies have shown that plants rich in S-lignin content or with a higher S/G ratio always exhibit higher efficiency in the utilization of lignocellulosic biomass. Ferulate 5-hydroxylase, or coniferaldehyde 5-hydroxylase (F5H, or CAld5H), is the critical enzyme in syringyl lignin biosynthesis. Some F5Hs have been characterized in several plant species, e.g., Arabidopsis, rice, and poplar. However, information about F5Hs in wheat remains unclear. In this study, a wheat F5H gene, TaF5H1, together with its native promoter (pTaF5H1), was functionally characterized in transgenic Arabidopsis. Gus staining results showed that TaF5H1 could be expressed predominantly in the highly lignified tissues in transgenic Arabidopsis plants carrying pTaF5H1:Gus. qRT-PCR results showed that TaF5H1 was significantly inhibited by NaCl treatment. Ectopic expression of TaF5H1 driven by pTaF5H1 (i.e., pTaF5H1:TaF5H1) could increase the biomass yield, S-lignin content, and S/G ratio in transgenic Arabidopsis plants, which could also restore the traces of S-lignin in fah1-2, the Arabidopsis F5H mutant, to an even higher level than the wild type (WT), suggesting that TaF5H1 is a critical enzyme in S lignin biosynthesis, and pTaF5H1:TaF5H1 module has potential in the manipulation of S-lignin composition without any compromise on the biomass yield. However, expression of pTaF5H1:TaF5H1 also led to decreased salt tolerance compared with the WT. RNA-seq analysis showed that many stress-responsive genes and genes responsible for the biosynthesis of cell walls were differentially expressed between the seedlings harboring pTaF5H1:TaF5H1 and the WT, hinting that manipulation of the cell wall components targeting F5H may also affect the stress adaptability of the modified plants due to the interference to the cell wall integrity. In summary, this study demonstrated that the wheat pTaF5H1: TaF5H1 cassette has the potential to modulate S-lignin composition without any compromise in biomass yield in future engineering practice. Still, its negative effect on stress adaptability to transgenic plants should also be considered. •pTaF5H1:TaF5H1 module can be used to improve S-lignin composition in transgenic Arabidopsis plants without biomass loss.•Expression of pTaF5H1: TaF5H1 in Arabidopsis led to decreased salt tolerance compared to the wild type.•Alteration of cell wall component may lead to decreased salt tolerance of the Arabidopsis plants expressing pTaF5H1:TaF5H1.
  • Editor: Germany: Elsevier GmbH
  • Idioma: Inglês
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