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首页> 美国卫生研究院文献>Annals of Botany >Arabidopsis SHR and SCR transcription factors and AUX1 auxin influx carrier control the switch between adventitious rooting and xylogenesis in planta and in in vitro cultured thin cell layers
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Arabidopsis SHR and SCR transcription factors and AUX1 auxin influx carrier control the switch between adventitious rooting and xylogenesis in planta and in in vitro cultured thin cell layers

机译:拟南芥SHR和SCR转录因子以及AUX1生长素流入载体控制植物和体外培养的薄细胞层中不定根和木糖异生之间的转换

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>Background and Aims Adventitious roots (ARs) are essential for vegetative propagation. The Arabidopsis thaliana transcription factors SHORT ROOT (SHR) and SCARECROW (SCR) affect primary/lateral root development, but their involvement in AR formation is uncertain. LAX3 and AUX1 auxin influx carriers contribute to primary/lateral root development. LAX3 expression is regulated by SHR, and LAX3 contributes to AR tip auxin maximum. In contrast, AUX1 involvement in AR development is unknown. Xylogenesis is induced by auxin plus cytokinin as is AR formation, but the genes involved are largely unknown. Stem thin cell layers (TCLs) form ARs and undergo xylogenesis under the same auxin plus cytokinin input. The aim of this research was to investigate SHR, SCR, AUX1 and LAX3 involvement in AR formation and xylogenesis in intact hypocotyls and stem TCLs in arabidopsis.>Methods Hypocotyls of scr-1, shr-1, lax3, aux1-21 and lax3/aux1-21 Arabidopsis thaliana null mutant seedlings grown with or without auxin plus cytokinin were examined histologically, as were stem TCLs cultured with auxin plus cytokinin. SCR and AUX1 expression was monitored using pSCR::GFP and AUX1::GUS lines, and LAX3 expression and auxin localization during xylogenesis were monitored by using LAX3::GUS and DR5::GUS lines.>Key Results AR formation was inhibited in all mutants, except lax3. SCR was expressed in pericycle anticlinally derived AR-forming cells of intact hypocotyls, and in cell clumps forming AR meristemoids of TCLs. The apex was anomalous in shr and scr ARs. In all mutant hypocotyls, the pericycle divided periclinally to produce xylogenesis. Xylary element maturation was favoured by auxin plus cytokinin in shr and aux1-21. Xylogenesis was enhanced in TCLs, and in aux1-21 and shr in particular. AUX1 was expressed before LAX3, i.e. in the early derivatives leading to either ARs or xylogenesis.>Conclusions AR formation and xylogenesis are developmental programmes that are inversely related, but they involve fine-tuning by the same proteins, namely SHR, SCR and AUX1. Pericycle activity is central for the equilibrium between xylary development and AR formation in the hypocotyl, with a role for AUX1 in switching between, and balancing of, the two developmental programmes.
机译:>背景和目标。不定根(AR)对于无性繁殖至关重要。拟南芥转录因子SHORT ROOT(SHR)和SCARECROW(SCR)影响初生/侧生根发育,但它们是否参与AR形成尚不确定。 LAX3和AUX1生长素流入载体有助于初级/侧根发育。 LAX3的表达受SHR调节,并且LAX3有助于AR端生长素的最大值。相反,AUX1参与AR的发展尚不清楚。植物生长素和细胞分裂素与AR的形成一样诱导木糖生成,但是所涉及的基因在很大程度上是未知的。茎薄细胞层(TCL)形成AR,并在相同的生长素和细胞分裂素输入下发生木糖生成。这项研究的目的是研究SHR,SCR,AUX1和LAX3参与拟南芥完整下胚轴和茎TCL中AR的形成和木糖生成的作用。>方法组织学检查了生长素1-21和lax3 / aux1-21拟南芥无效突变体幼苗,无论生长素是否与生长素加细胞分裂素一起生长,以及用生长素加细胞分裂素培养茎TCL。使用pSCR :: GFP和AUX1 :: GUS系监测SCR和AUX1的表达,并使用LAX3 :: GUS和DR5 :: GUS系监测木糖生成过程中LAX3的表达和生长素的定位。>主要结果除lax3外,所有突变体均抑制AR形成。 SCR 在完整的下胚轴周围轮生于反周期的AR形成细胞中以及在形成TCL的AR分生组织的细胞团中表达。 shr scr AR的顶点异常。在所有突变的下胚轴中,周轮周向分裂产生木糖异生。生长素和细胞分裂素在 shr aux1-21 中促进木糖元素的成熟。 TCL中,尤其是 aux1-21 shr 中的木糖生成得到增强。 AUX1 LAX3 之前表达,即在导致AR或木糖异生的早期衍生物中。>结论 AR的形成和木糖异生是相反的发育程序。相关,但它们涉及通过相同的蛋白质(即SHR,SCR和AUX1)进行微调。周生活性对于下胚轴中木糖发育和AR形成之间的平衡至关重要,AUX1在两个发育程序之间切换和平衡时起着重要作用。

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