Elena Pacifici scite author profile

In multicellular organisms, a stringent control of the transition between cell division and differentiation is crucial for correct tissue and organ development. In the Arabidopsis root, the boundary between dividing and differentiating cells is positioned by the antagonistic interaction of the hormones auxin and cytokinin. Cytokinin affects polar auxin transport, but how this impacts the positional information required to establish this tissue boundary, is still unknown. By combining computational modeling with molecular genetics, we show that boundary formation is dependent on cytokinin's control on auxin polar transport and degradation. The regulation of both processes shapes the auxin profile in a welldefined auxin minimum. This auxin minimum positions the boundary between dividing and differentiating cells, acting as a trigger for this developmental transition, thus controlling meristem size.plant hormones | cell differentiation | root meristem | computational modeling

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Spatial Coordination between Stem Cell Activity and Cell Differentiation in the Root Meristem

Moubayidin¹,

Mambro²,

et al. 2013

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SUMMARY A critical issue in development is coordination of the activity of stem cell niches with differentiation of their progeny to ensure coherent organ growth. In the plant root, these processes take place at opposite ends of the meristem and must be coordinated with each other at a distance. Here we show that in Arabidopsis the gene SCR presides over this spatial coordination. In the organizing centre of the root stem cell niche, SCR directly represses the expression of the cytokinin-response transcription factor ARR1, which promotes cell differentiation, controlling auxin production via the ASB1 gene and sustaining stem cell activity. This allows SCR to regulate, via auxin, the level of ARR1 expression in the transition zone where the stem cell progeny leave the meristem, thus controlling the rate of differentiation. In this way, SCR simultaneously controls stem cell division and differentiation ensuring coherent root growth.

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Plant hormone cross-talk: the pivot of root growth

2015

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Root indeterminate growth and its outstanding ability to produce new tissues continuously make this organ a highly dynamic structure able to respond promptly to external environmental stimuli. Developmental processes therefore need to be finely tuned, and hormonal cross-talk plays a pivotal role in the regulation of root growth. In contrast to what happens in animals, plant development is a post-embryonic process. A pool of stem cells, placed in a niche at the apex of the meristem, is a source of self-renewing cells that provides cells for tissue formation. During the first days post-germination, the meristem reaches its final size as a result of a balance between cell division and cell differentiation. A complex network of interactions between hormonal pathways co-ordinates such developmental inputs. In recent years, by means of molecular and computational approaches, many efforts have been made aiming to define the molecular components of these networks. In this review, we focus our attention on the molecular mechanisms at the basis of hormone cross-talk during root meristem size determination.

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Acidic cell elongation drives cell differentiation in the Arabidopsis root

Pacifici¹,

Mambro

Ioio³

et al. 2018

The EMBO Journal

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In multicellular systems, the control of cell size is fundamental in regulating the development and growth of the different organs and of the whole organism. In most systems, major changes in cell size can be observed during differentiation processes where cells change their volume to adapt their shape to their final function. How relevant changes in cell volume are in driving the differentiation program is a long-standing fundamental question in developmental biology. In the root meristem, characteristic changes in the size of the distal meristematic cells identify cells that initiated the differentiation program. Here, we show that changes in cell size are essential for the initial steps of cell differentiation and that these changes depend on the concomitant activation by the plant hormone cytokinin of the EXPAs proteins and the AHA1 and AHA2 proton pumps. These findings identify a growth module that builds on a synergy between cytokinin-dependent pH modification and wall remodeling to drive differentiation through the mechanical control of cell walls.

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Differential spatial distribution of miR165/6 determines variability in plant root anatomy

Ruocco

Bertolotti

Pacifici

et al. 2018

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A clear example of interspecific variation is the number of root cortical layers in plants. The genetic mechanisms underlying this variability are poorly understood, partly because of the lack of a convenient model. Here, we demonstrate that , unlike, has two cortical layers that are patterned during late embryogenesis. We show that a miR165/6-dependent distribution of the HOMEODOMAIN LEUCINE ZIPPER III (HD-ZIPIII) transcription factor PHABULOSA (PHB) controls this pattern. Our findings reveal that interspecies variation in miRNA distribution can determine differences in anatomy in plants.

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Elena Pacifici

Auxin minimum triggers the developmental switch from cell division to cell differentiation in the Arabidopsis root

Spatial Coordination between Stem Cell Activity and Cell Differentiation in the Root Meristem

Plant hormone cross-talk: the pivot of root growth

Acidic cell elongation drives cell differentiation in the Arabidopsis root

Differential spatial distribution of miR165/6 determines variability in plant root anatomy

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