Regulatory layers of robustness of CLAVATA-WUSCHEL feedback system in stem cell homeostasis
Vincent E. Cerbantez-Bueno, Paddy J. Sheils, G. Venugopala Reddy

TL;DR
This paper reviews how the CLAVATA-WUSCHEL system maintains stem cell stability in plants under changing conditions.
Contribution
The paper integrates recent biological experiments and mathematical modeling to reveal multilayered regulatory mechanisms for developmental robustness.
Findings
WUS concentration-dependent CLV3 transcription involves cis-regulatory modules and cofactors.
CLV3 processing and modifications contribute to system robustness.
Multiple signals regulate WUS transcription and protein dynamics for tissue-level stability.
Abstract
Spatio-temporal regulation of gene expression and cellular behavior is critical for ensuring developmental robustness in all multicellular organisms. The mechanisms regulating robustness are often multilayered, with underlying processes occurring at different spatio-temporal scales. Pluripotent stem cells are maintained in SAMs despite periodic differentiation of stem-cell progeny into all above-ground organs, which together form much of the biomass on Earth. Shoot apical meristems (SAMs) are often exposed to variable growth conditions in nature; therefore, stem cell maintenance must be robust to withstand these changes. We focus our review on the mechanisms that regulate the robustness of the central CLAVATA (CLV)-WUSCHEL (WUS) feedback system, highlighting insights from new studies that integrate biological experiments with mathematical modeling. These studies have revealed the…
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Taxonomy
TopicsDevelopmental Biology and Gene Regulation · Hippo pathway signaling and YAP/TAZ · Planarian Biology and Electrostimulation
