BpIAA10与BpIAA7和BpARF19相互作用调控白桦胚叶的生长和分化

Wendi Xu, Jiaqi Wang, Shuo Wang, Su Chen, Rui Han, Bin Yan, Jing Jiang, Guifeng Liu
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摘要

生长素/吲哚乙酸(Aux/IAA)家族是一类重要的生长素应答基因,参与拟南芥叶片发育。然而,这些基因在多年生木本植物中的生物学功能尚不清楚。本研究从桦树(Betula platyphylla)中鉴定了一个与胚叶生长相关的Aux/IAA10基因(BpIAA10)。BpIAA10的功能增益和功能损失分析证实了这一结果。过表达(OE)和抑制(RE) BpIAA10的转基因桦木的胚叶和托叶数量显著高于非转基因品系(NT)。OE系和RE系的IAA浓度分别比NT系高3.50倍和3.61倍。酵母双杂交和双分子荧光互补(BiFC)分析表明,BpIAA10在叶片发育过程中与BpIAA7和BpARF19特异性相互作用。此外,我们发现BpIAA10的过表达和抑制都会影响生长素生物合成和代谢基因、生长素反应基因和叶片发育基因的表达。这些结果表明,BpIAA10通过与桦树生长素反应通路组分的特异性相互作用和复杂调控参与了胚胎叶的分化和生长。我们的发现为多年生乔木的叶片生长和分化提供了新的见解。
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BpIAA10 interacts with BpIAA7 and BpARF19 to regulate the growth and differentiation of embryonic leaves in birch (Betula platyphylla)
Abstract The Auxin/Indole acetic acid (Aux/IAA) family is an important class of auxin-response genes involved in leaf development in Arabidopsis . However, the biological function of these genes remains unclear in perennial wood plants. In this study, we identified an Aux/IAA10 gene ( BpIAA10 ) from birch ( Betula platyphylla) that is associated with growth of embryonic leaves. The result was confirmed by gain- and loss-of-function analysis of BpIAA10 . Transgenic birch overexpressing (OE) and repressing (RE) BpIAA10 exhibited significantly increased numbers of embryonic leaves and stipules than non-transgenic lines (NT). The IAA concentration was increased by 3.50 and 3.61-fold in OE and RE lines than NT, respectively. Yeast two-hybrid and bimolecular fluorescence complementation (BiFC) analysis revealed that BpIAA10 specifically interacts with BpIAA7 and BpARF19 during leaf development. In addition, we found both overexpression and repression of BpIAA10 affected the expression of auxin biosynthesis and metabolism genes, auxin response genes, and leaf development genes. All these results indicated that BpIAA10 is involved in the differentiation and growth of embryonic leaves by specific interactions and complex regulation with components of the birch auxin response pathway. Our findings provide insights into leaf growth and differentiation in perennial trees.
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