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Epidermal hydrodynamics controls waterhomeostasis of shoot meristems for plant adaptationto terrestrial environments by Yimin Zhu & Xianmiao Zhu & Simin Bi & Dan Teng & Muhammad Tahir & Yangxuan Liu & Long Wang & Huanhuan Liu & Tingting Wen & Leyao Zhu & Zhenquan Li & Xing Chen & Minhua Zhang & Wenjuan Cai & Zhijun Liu & Mingyue Zheng & Yu Zhang & Ji-Ming Gong & Jia-Wei... instant download

  • SKU: EBN-239341714
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Instant download (eBook) Epidermal hydrodynamics controls waterhomeostasis of shoot meristems for plant adaptationto terrestrial environments after payment.
Authors:Yimin Zhu & Xianmiao Zhu & Simin Bi & Dan Teng & Muhammad Tahir & Yangxuan Liu & Long Wang & Huanhuan Liu & Tingting Wen & Leyao Zhu & Zhenquan Li & Xing Chen & Minhua Zhang & Wenjuan Cai & Zhijun Liu & Mingyue Zheng & Yu Zhang & Ji-Ming Gong & Jia-Wei...
Pages:updating ...
Year:2025
Publisher:The Authors
Language:english
File Size:41.68 MB
Format:pdf
Categories: Ebooks

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Epidermal hydrodynamics controls waterhomeostasis of shoot meristems for plant adaptationto terrestrial environments by Yimin Zhu & Xianmiao Zhu & Simin Bi & Dan Teng & Muhammad Tahir & Yangxuan Liu & Long Wang & Huanhuan Liu & Tingting Wen & Leyao Zhu & Zhenquan Li & Xing Chen & Minhua Zhang & Wenjuan Cai & Zhijun Liu & Mingyue Zheng & Yu Zhang & Ji-Ming Gong & Jia-Wei... instant download

Developmental Cell, Corrected proof. doi:10.1016/j.devcel.2025.09.007

SUMMARYWater uptake and redistribution represent a significant challenge for plant colonization of land. Whilevascular plants have evolved specialized structures for water transport, how water homeostasis is maintained in meristematic tissues remains elusive. Here, we show that the Arabidopsis shoot meristem developswithin a high-humidity niche. The homeodomain leucine zipper (HD-ZIP) transcription factor ARABIDOPSISTHALIANA MERISTEM LAYER 1 (ATML1) and its regulatory target PIP2;5 establish a water conduit across L1cells to facilitate hydraulic exchange with the surrounding microenvironment. The ATML1-PIP2;5 module regulates stem cell activity in response to humidity fluctuations and is associated with local adaptation to aridclimates in natural populations. Transcriptional activation of water flux by class IV homeodomain-leucinezipper (C4HDZ) proteins predates the emergence of vascular systems, contributing to hydraulic responsein the liverwort Marchantia polymorpha. Our results reveal an evolutionarily conserved epidermal hydraulicpathway that integrates developmental patterning with environmental sensing, highlighting a fundamentalrole for the shoot meristem in shaping plant adaptation in terrestrial habitats.

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