Bernhard Blob scite author profile

While apical growth in plants initiates upon seed germination, radial growth is only primed during early ontogenesis in procambium cells and activated later by the vascular cambium 1 . Although it is not known how radial growth is organized and regulated in plants, this system resembles the developmental competence observed in some animal systems, in which pre-existing patterns of developmental potential are established early on 2,3 . Here we show that the initiation of radial growth occurs around early protophloem sieve element (PSE) cell files of the root procambial tissue in Arabidopsis. In this domain cytokinin signalling promotes expression of a pair of novel mobile transcription factors, PHLOEM EARLY DOF (PEAR1, PEAR2) and their four homologs (DOF6, TMO6, OBP2 and HCA2), collectively called PEAR proteins. The PEAR proteins form a short-range concentration gradient peaking at PSE and activating gene expression that promotes radial growth. The expression and function of PEAR proteins are antagonized by well-established polarity transcription factors, HD-ZIP III 4 , whose expression is concentrated in the more internal domain of radially non-dividing procambial cells by the function of auxin and mobile miR165/166. The PEAR proteins locally promote transcription of their inhibitory HD-ZIP III genes, thereby establishing a negative feedback loop that forms a robust boundary demarking the zone of cell divisions. Taken together, we have established a network, in which the PEAR -HD-ZIP III module integrates spatial information of the hormonal domains and miRNA gradients during root procambial development, to provide adjacent zones of dividing and more quiescent cells as a foundation for further radial growth. Cambial growth in plants is initiated within the procambial tissues of the apical meristems through periclinal (i.e. longitudinal) divisions associated with formation of the vascular tissues xylem and phloem 1 (Extended Data Fig. 1a). It has been established that during procambial development in Arabidopsis roots there are distinct domains for high auxin and cytokinin signalling, which mark the regions for further development of xylem and phloem/procambium, respectively 5-8 . To accurately map the spatial distribution of the periclinal divisions, we established a new nomenclature for the root procambial cells, including PSE-lateral neighbours (PSE-LN) as cells directly contacting both PSE and the pericycle, the outer procambial cells (OPC) as procambial cells adjacent to the pericycle but not contacting PSE, and SE-internal neighbours (PSE-IN) as cells located internal to and directly contacting PSE (Fig. 1a). Both the PSE cell and PSE-LN showed higher activity of periclinal cell division than the OPC and PSE-IN (Fig. 1b, Extended Data Fig. 1b-d and Supplementary Information).We observed virtually no periclinal divisions in metaxylem (MX) and internal procambial cells (IPC) (Fig. 1b). Furthermore, blocking symplastic transport genetically 9 between the PSE and the surrounding cells results in a dramatic reduct...

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DOF2.1 Controls Cytokinin-Dependent Vascular Cell Proliferation Downstream of TMO5/LHW

Smet

et al. 2019

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Summary To create a three-dimensional structure, plants rely on oriented cell divisions and cell elongation. Oriented cell divisions are specifically important in procambium cells of the root to establish the different vascular cell types [ 1 , 2 ]. These divisions are in part controlled by the auxin-controlled TARGET OF MONOPTEROS5 (TMO5) and LONESOME HIGHWAY (LHW) transcription factor complex [ 3 , 4 , 5 , 6 , 7 ]. Loss-of-function of tmo5 or lhw clade members results in strongly reduced vascular cell file numbers, whereas ectopic expression of both TMO5 and LHW can ubiquitously induce periclinal and radial cell divisions in all cell types of the root meristem. TMO5 and LHW interact only in young xylem cells, where they promote expression of two direct target genes involved in the final step of cytokinin (CK) biosynthesis, LONELY GUY3 ( LOG3 ) and LOG4 [ 8 , 9 ] Therefore, CK was hypothesized to act as a mobile signal from the xylem to trigger divisions in the neighboring procambium cells [ 3 , 6 ]. To unravel how TMO5/LHW-dependent cytokinin regulates cell proliferation, we analyzed the transcriptional responses upon simultaneous induction of both transcription factors. Using inferred network analysis, we identified AT2G28510/DOF2.1 as a cytokinin-dependent downstream target gene. We further showed that DOF2.1 controls specific procambium cell divisions without inducing other cytokinin-dependent effects such as the inhibition of vascular differentiation. In summary, our results suggest that DOF2.1 and its closest homologs control vascular cell proliferation, thus leading to radial expansion of the root.

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Advances and Opportunities in Single-Cell Transcriptomics for Plant Research

Seyfferth

Renema

Wendrich

et al. 2021

Annu. Rev. Plant Biol.

136

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Single-cell approaches are quickly changing our view on biological systems by increasing the spatiotemporal resolution of our analyses to the level of the individual cell. The field of plant biology has fully embraced single-cell transcriptomics and is rapidly expanding the portfolio of available technologies and applications. In this review, we give an overview of the main advances in plant single-cell transcriptomics over the past few years and provide the reader with an accessible guideline covering all steps, from sample preparation to data analysis. We end by offering a glimpse of how these technologies will shape and accelerate plant-specific research in the near future. Expected final online publication date for the Annual Review of Plant Biology, Volume 72 is May 2021. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

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Bernhard Blob

Mobile PEAR transcription factors integrate positional cues to prime cambial growth

DOF2.1 Controls Cytokinin-Dependent Vascular Cell Proliferation Downstream of TMO5/LHW

Advances and Opportunities in Single-Cell Transcriptomics for Plant Research

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