MAPK Phosphatase AP2C3 Induces Ectopic Proliferation of Epidermal Cells Leading to Stomata Development in Arabidopsis

Umbrasaite, Julija; Schweighofer, Alois; Kazanavičiūtė, Vaiva; Magyar, Zoltán; Ayatollahi, Zahra; Unterwurzacher, Verena; Choopayak, Chonnanit; Boniecka, Justyna; Murray, James A. H.; Bögre, László; Meskiene, Irute

doi:10.1371/journal.pone.0015357

Cited by 81 publications

(79 citation statements)

References 87 publications

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“…The modification of YDA, MKK4/5, and MPK3/6 activities through the action of phosphatases represents a regulation point to adjust the initiation of stomata during development. The Arabidopsis protein phosphatase 2C (AP2C3: At2g40180) is expressed specifically in the stomatal lineage from meristemoid onwards and results in an epidermis composed solely of stomata when ectopically expressed (Umbrasaite et al, 2010). This phenotype is similar to yda or mpk3/6 loss-of-function mutants and implicates AP2C3 as a suppressor of MAPK activity in epidermal cells.…”

Section: Mapk Phosphatasesmentioning

confidence: 99%

“…Although direct connections have not been established, downstream signaling from ERf and TMM are likely transduced through a MAPK module, consisting of the MAP-KKK YODA (YDA: At1g63700), MKK4/5 (At1g51660/At3g21220), and MPK3/6 (At3g45640/At2g43790) (Bergmann et al, 2004;Lukowitz et al, 2004;Wang et al, 2007;Umbrasaite et al, 2010). These MAPKs are broadly expressed and have pleiotropic effects on development, but uniformly work to promote pavement cell differentiation and inhibit the initiation of stomata.…”

Section: Mapk Kinase Signalingmentioning

confidence: 99%

“…This predicts that AP2C3 deactivates MAPK3/6 specifically in the stomatal lineage, providing a mechanism to tightly adjust the signaling pathway controlling stomatal production (Figure 9). Further work needs to be initiated to investigate the endogenous or redundant role of AP2C3, because loss-of-function mutants have no detectable phenotype (Umbrasaite et al, 2010).…”

Section: Mapk Phosphatasesmentioning

confidence: 99%

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Stomatal Development in Arabidopsis

Pillitteri

Dong

2013

The Arabidopsis Book

128

119

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Stomata consist of two guard cells that function as turgor-operated valves that regulate gas exchange in plants. In Arabidopsis, a dedicated cell lineage is initiated and undergoes a series of cell divisions and cell-state transitions to produce a stoma. A set of basic helix-loop-helix (bHLH) transcription factors regulates the transition and differentiation events through the lineage, while the placement of stomata relative to each other is controlled by intercellular signaling via peptide ligands, transmembrane receptors, and mitogen-activated protein kinase (MAPK) modules. Some genes involved in regulating stomatal differentiation or density are also involved in hormonal and environmental stress responses, which may provide a link between modulation of stomatal development or function in response to changes in the environment. Premitotic polarlylocalized proteins provide an added layer of regulation, which can be addressed more thoroughly with the identification of additional proteins in this pathway. Linking the networks that control stomatal development promises to bring advances to our understanding of signal transduction, cell polarity, and cell-fate specification in plants.

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Section: Mapk Phosphatasesmentioning

confidence: 99%

Section: Mapk Kinase Signalingmentioning

confidence: 99%

Section: Mapk Phosphatasesmentioning

confidence: 99%

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Stomatal Development in Arabidopsis

Pillitteri

Dong

2013

The Arabidopsis Book

128

119

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“…The specificities for interactions between AP2Cs and MAPKs have been demonstrated, and extensive yeast two-hybrid screenings with AP2Cs repeatedly isolated MPK6 (Schweighofer et al , 2007; Umbrasaite et al , 2010). Interaction between AP2Cs and MPK3, 4 and 6 has been confirmed by bimolecular fluorescence complementation (BiFC) (Schweighofer et al , 2007; Brock et al , 2010; Umbrasaite et al , 2010) and co-immunoprecipitation (Schweighofer et al , 2007).…”

Section: Introductionmentioning

confidence: 99%

Protein phosphatase AP2C1 negatively regulates basal resistance and defense responses toPseudomonas syringae

Shubchynskyy

Boniecka

Schweighofer

et al. 2017

EXBOTJ

Self Cite

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“…In addition, a MAPK phosphatase, AP2C3 (also known as PP2C5), is expressed in stomatal lineage cells and when overexpressed confers an epidermis that is solely composed of stomata, suggesting that it might act as a negative regulator of stomatal signaling (Umbrasaite et al, 2010). However, ap2c3 loss-of-function mutants do not exhibit any phenotype (Umbrasaite et al, 2010), implying possible redundancy or, alternatively, that endogenous AP2C3 does not play a direct role in stomatal development. In animals, MAPK cascades play pivotal roles in the regulation of cell proliferation, differentiation, and tissue patterning (Qi and Elion, 2005).…”

Section: Cell-cell Signaling Enforces Proper Stomatal Patterningmentioning

confidence: 99%

Lineage-specific stem cells, signals and asymmetries during stomatal development

Han

Torii

2016

Development

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Stomata are dispersed pores found in the epidermis of land plants that facilitate gas exchange for photosynthesis while minimizing water loss. Stomata are formed from progenitor cells, which execute a series of differentiation events and stereotypical cell divisions. The sequential activation of master regulatory basic-helix-loop-helix (bHLH) transcription factors controls the initiation, proliferation and differentiation of stomatal cells. Cell-cell communication mediated by secreted peptides, receptor kinases, and downstream mitogenactivated kinase cascades enforces proper stomatal patterning, and an intrinsic polarity mechanism ensures asymmetric cell divisions. As we review here, recent studies have provided insights into the intrinsic and extrinsic factors that control stomatal development. These findings have also highlighted striking similarities between plants and animals with regards to their mechanisms of specialized cell differentiation.

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MAPK Phosphatase AP2C3 Induces Ectopic Proliferation of Epidermal Cells Leading to Stomata Development in Arabidopsis

Cited by 81 publications

References 87 publications

Stomatal Development in Arabidopsis

Stomatal Development in Arabidopsis

Protein phosphatase AP2C1 negatively regulates basal resistance and defense responses toPseudomonas syringae

Lineage-specific stem cells, signals and asymmetries during stomatal development

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