Dong Yating, Krishnamoorthi Shalini, Tan Grace Zi Hao, Poh Zheng Yong, Urano Daisuke
Temasek Life Sciences Laboratory, Singapore, Singapore.
Department of Biological Sciences, National University of Singapore, Singapore, Singapore.
Nat Plants. 2024 Dec;10(12):1955-1968. doi: 10.1038/s41477-024-01851-4. Epub 2024 Nov 26.
Plant responses to nitrate, phosphate and sucrose form a complex molecular network crucial for terrestrial adaptation. However, the origins, functional diversity and evolvability of this network during plant terrestrialization remain scarcely understood. Here we compare the transcriptomic response to these nutrients in the bryophyte Marchantia polymorpha and the streptophyte alga Klebsormidium nitens. We show that the largely species-specific nutrient response pattern is driven by gene regulatory network (GRN) alterations. Intriguingly, while pathways governing the GRNs exhibit modest conservation, M. polymorpha GRNs exhibit more regulatory connections through the redeployment of ancient transcription factor CSD. In M. polymorpha, functional analyses reveal the involvement of pre-existing cytokinin machineries in downstream targets, orchestrating plastic morpho-physiological responses to nutrient status. Our findings implicate the genetic co-option events facilitating successful land plant establishment.
植物对硝酸盐、磷酸盐和蔗糖的反应形成了一个复杂的分子网络,这对陆地适应至关重要。然而,在植物陆地化过程中,这个网络的起源、功能多样性和进化能力仍然鲜为人知。在这里,我们比较了苔藓植物多歧藻和链形植物藻类尼特氏克莱布索藻对这些养分的转录组反应。我们表明,很大程度上物种特异性的养分反应模式是由基因调控网络(GRN)的改变驱动的。有趣的是,虽然控制GRN的途径表现出适度的保守性,但多歧藻的GRN通过重新部署古老的转录因子CSD表现出更多的调控连接。在多歧藻中,功能分析揭示了预先存在的细胞分裂素机制参与下游靶点,协调对养分状态的可塑性形态生理反应。我们的研究结果暗示了促进陆地植物成功建立的基因共选择事件。
