SPL13 controls a root apical meristem phase change by triggering oriented cell divisions

Yang, Baojun; Sun, Yanbiao; Minne, Max; Ge, Yanhua; Yue, Qianru; Goossens, Vera; Mor, Eliana; Callebaut, Brenda; Bevernaege, Kevin; Winne, Johan M.; Audenaert, Dominique; De Rybel, Bert

doi:10.1126/science.ado4298

Science

2024

DOI: 10.1126/science.ado4298

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SPL13 controls a root apical meristem phase change by triggering oriented cell divisions

Baojun Yang,

Yanbiao Sun,

Max Minne

et al.

Abstract: Oriented cell divisions are crucial for determining the overall morphology and size of plants, but what controls the onset and duration of this process remains largely unknown. Here, we identified a small molecule that activates root apical meristem (RAM) expression of SQUAMOSA PROMOTER BINDING PROTEIN-LIKE13 (SPL13) a known player in the shoot’s juvenile-to-adult transition. This expression leads to oriented cell divisions in the RAM through SHORT ROOT (SHR) and cell cycle regulators. We further show that the… Show more

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2024

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MYB68 regulates radial endodermal differentiation and suberin patterning

Kraska,

Mercadal Melia,

Nakano

et al. 2024

Preprint

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Roots are composed of concentric tissue layers that enable selective uptake of nutrients, attributed to the vascular-embracing endodermis. In mature root regions, endodermal cells coat their cell surface in a hydrophobic polymer termed suberin, which blocks solute transport across the plasma membrane. Intriguingly, specific cells adjacent to the water-conducting xylem remain unsuberized. These are termed passage cells based on the assumption that they create a passage for nutrient influx into vasculature in the otherwise sealed-off root regions. The identity and function of passage cells remain unknown, but their presence proposes the existence of individual identities within the endodermis. In this study, we probe this by performing an in-depth investigation of passage cells and endodermal suberization in the model plant Arabidopsis thaliana. Our work identifies the transcription factor MYB68 as a key regulator of suberization and endodermal lineage-specification related to passage cell formation. Through transcriptional profiling of myb68 mutants, we unravel genes with passage cell-associated expression that suggest a function in cation homeostasis. Collectively, our findings create a framework for a deeper understanding of radial cell identities within the endodermis and highlight that dynamic spatiotemporal patterning is an important physiological feature of root ground tissues.

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MYB68 regulates radial endodermal differentiation and suberin patterning

Kraska,

Mercadal Melia,

Nakano

et al. 2024

Preprint

View full text Add to dashboard Cite

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SPL13 controls a root apical meristem phase change by triggering oriented cell divisions

Cited by 1 publication

References 100 publications

MYB68 regulates radial endodermal differentiation and suberin patterning

MYB68 regulates radial endodermal differentiation and suberin patterning

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