A Two-Step Model for de novo Activation of WUSCHEL during Plant Shoot Regeneration
Tian-Qi Zhang,Tian-Qi Zhang,Heng Lian,Chuan-Miao Zhou,Lin Xu,Yuling Jiao,Jiawei Wang,Jiawei Wang +7 more
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TLDR
The results provide important insights into the molecular framework for cytokinin-directed shoot regeneration and reveal a two-step mechanism for de novo activation of WUS, the homeodomain transcription factor for Arabidopsis thaliana.Abstract:
Plant cells are totipotent and competent to regenerate from differentiated organs. It has been known for six decades that cytokinin-rich medium induces shoot regeneration from callus cells. However, the underlying molecular mechanism remains elusive. The homeodomain transcription factor WUSCHEL (WUS) is essential for de novo establishment of the shoot stem cell niche in Arabidopsis thaliana We found that WUS-positive (WUS+) cells mark the shoot progenitor region during regeneration. A cytokinin-rich environment initially promotes the removal of the repressive histone mark H3K27me3 at the WUS locus in a cell cycle-dependent manner. Subsequently, the B-type ARABIDOPSIS RESPONSE REGULATORs (ARRs) ARR1, ARR2, ARR10, and ARR12, which function as transcriptional activators in the cytokinin signaling pathway, spatially activate WUS expression through binding with microRNA165/6-targeted HD-ZIP III transcription factors. Thus, our results provide important insights into the molecular framework for cytokinin-directed shoot regeneration and reveal a two-step mechanism for de novo activation of WUS.read more
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Stochastic gene expression drives mesophyll protoplast regeneration
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Multiple Links between HD-Zip Proteins and Hormone Networks.
TL;DR: Considering the fundamental role of specific HD-Zip proteins in the control of key developmental pathways and in the cross-talk between auxin and cytokinin, a relevant role of these factors in adjusting plant growth and development to changing environment is emerging.
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The atypical histone variant H3.15 promotes callus formation in Arabidopsis thaliana.
TL;DR: The results reveal a new mechanism for a release from PRC2-mediated gene repression through H3.15 deposition into chromatin, which is involved in reprogramming cell fate to produce pluripotent callus cells.
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The genetic framework of shoot regeneration in Arabidopsis comprises master regulators and conditional fine-tuning factors.
TL;DR: A genome-wide association study using 190 natural Arabidopsis accessions is performed to dissect the genetics of shoot regeneration from root explants and several related in vitro traits, proposing a model wherein shoot regeneration is governed by many conditional fine-tuning factors and a few universal master regulators such as WUSCHEL.
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A Conceptual Framework for Cell Identity Transitions in Plants.
TL;DR: The historical and current concepts of cell identity and identity transitions are reviewed, and how new views and tools may instruct the future understanding of differentiation and plant regeneration are discussed.
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