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Cytokinin and ALOG proteins regulate pluripotent stem cell identity in the moss <i>Physcomitrium patens</i>

Yuki Hata, J. Ohtsuka, Yuji Hiwatashi, Satoshi Naramoto, Junko Kyozuka

2024Science Advances12 citationsDOIOpen Access PDF

Abstract

The shoot apical meristem (SAM) contains pluripotent stem cells that produce all the aerial parts of the plant. Stem cells undergo asymmetric cell divisions to self-renew and to produce differentiating cells. Our research focused on unraveling the mechanisms governing the specification of these two distinct cell fates following the stem cell division. For this purpose, we used the model organism Physcomitrium patens , which features a singular pluripotent stem cell known as the gametophore apical cell. We show that the activity of cytokinins, critical stem cell regulators, is restricted to the gametophore apical cell due to the specific localization of PpLOG, the enzyme responsible for cytokinin activation. In turn, PpTAW, which promotes differentiating cell identity of the merophyte, is excluded from the gametophore apical cell by the action of cytokinins. We propose a cytokinin-based model for the establishment of asymmetry in the pluripotent stem cell division.

Topics & Concepts

Induced pluripotent stem cellMeristemCell biologyStem cellBiologyCytokininCell divisionApical cellEmbryonic stem cellCellCell growthBotanyAuxinShootBiochemistryGenePlant Molecular Biology ResearchPlant Reproductive BiologyBryophyte Studies and Records