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Regulation of stomatal development by stomatal lineage miRNAs.


ABSTRACT: Stomata in the plant epidermis play a critical role in growth and survival by controlling gas exchange, transpiration, and immunity to pathogens. Plants modulate stomatal cell fate and patterning through key transcriptional factors and signaling pathways. MicroRNAs (miRNAs) are known to contribute to developmental plasticity in multicellular organisms; however, no miRNAs appear to target the known regulators of stomatal development. It remains unclear as to whether miRNAs are involved in stomatal development. Here, we report highly dynamic, developmentally stage-specific miRNA expression profiles from stomatal lineage cells. We demonstrate that stomatal lineage miRNAs positively and negatively regulate stomatal formation and patterning to avoid clustered stomata. Target prediction of stomatal lineage miRNAs implicates potential cellular processes in stomatal development. We show that miR399-mediated PHO2 regulation, involved in phosphate homeostasis, contributes to the control of stomatal development. Our study demonstrates that miRNAs constitute a critical component in the regulatory mechanisms controlling stomatal development.

SUBMITTER: Zhu J 

PROVIDER: S-EPMC7084132 | biostudies-literature | 2020 Mar

REPOSITORIES: biostudies-literature

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Regulation of stomatal development by stomatal lineage miRNAs.

Zhu Jiali J   Park Ji-Hwan JH   Lee Seulbee S   Lee Jae Ho JH   Hwang Daehee D   Kwak June M JM   Kim Yun Ju YJ  

Proceedings of the National Academy of Sciences of the United States of America 20200302 11


Stomata in the plant epidermis play a critical role in growth and survival by controlling gas exchange, transpiration, and immunity to pathogens. Plants modulate stomatal cell fate and patterning through key transcriptional factors and signaling pathways. MicroRNAs (miRNAs) are known to contribute to developmental plasticity in multicellular organisms; however, no miRNAs appear to target the known regulators of stomatal development. It remains unclear as to whether miRNAs are involved in stomata  ...[more]

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