School of Biological Sciences, Monash University, Clayton, Melbourne, Victoria, 3800, Australia.
Institute of Biotechnology, National Taiwan University, 81, Chang-Xing ST., Taipei, 106, Taiwan.
New Phytol. 2018 Jun;218(4):1612-1630. doi: 10.1111/nph.15090. Epub 2018 Mar 25.
A plethora of developmental and physiological processes in land plants is influenced by auxin, to a large extent via alterations in gene expression by AUXIN RESPONSE FACTORs (ARFs). The canonical auxin transcriptional response system is a land plant innovation, however, charophycean algae possess orthologues of at least some classes of ARF and AUXIN/INDOLE-3-ACETIC ACID (AUX/IAA) genes, suggesting that elements of the canonical land plant system existed in an ancestral alga. We reconstructed the phylogenetic relationships between streptophyte ARF and AUX/IAA genes and functionally characterized the solitary class C ARF, MpARF3, in Marchantia polymorpha. Phylogenetic analyses indicate that multiple ARF classes, including class C ARFs, existed in an ancestral alga. Loss- and gain-of-function MpARF3 alleles result in pleiotropic effects in the gametophyte, with MpARF3 inhibiting differentiation and developmental transitions in multiple stages of the life cycle. Although loss-of-function Mparf3 and Mpmir160 alleles respond to exogenous auxin treatments, strong miR-resistant MpARF3 alleles are auxin-insensitive, suggesting that class C ARFs act in a context-dependent fashion. We conclude that two modules independently evolved to regulate a pre-existing ARF transcriptional network. Whereas the auxin-TIR1-AUX/IAA pathway evolved to repress class A/B ARF activity, miR160 evolved to repress class C ARFs in a dynamic fashion.
在陆生植物中,大量的发育和生理过程受到生长素的影响,在很大程度上是通过 AUXIN RESPONSE FACTORS(ARFs)改变基因表达来实现的。经典的生长素转录响应系统是陆生植物的创新,但Charophycean 藻类至少拥有一些 ARF 和 AUXIN/INDOLE-3-ACETIC ACID(AUX/IAA)基因的同源物,这表明经典的陆生植物系统的某些元素存在于祖先藻类中。我们重建了石松类 ARF 和 AUX/IAA 基因的系统发育关系,并在 Marchantia polymorpha 中对单一的 C 类 ARF,MpARF3 进行了功能表征。系统发育分析表明,多个 ARF 类,包括 C 类 ARFs,存在于祖先藻类中。失活和功能获得的 MpARF3 等位基因在配子体中产生多效性效应,MpARF3 抑制了生命周期多个阶段的分化和发育转变。尽管失活的 Mparf3 和 Mpmir160 等位基因对外源生长素处理有反应,但强烈的抗 miR 的 MpARF3 等位基因对生长素不敏感,这表明 C 类 ARFs 以依赖于上下文的方式发挥作用。我们得出结论,两个模块独立进化以调节一个预先存在的 ARF 转录网络。虽然生长素-TIR1-AUX/IAA 途径进化为抑制 A 类/B 类 ARF 活性,但 miR160 进化为以动态方式抑制 C 类 ARFs。
