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Gating of miRNA movement at defined cell-cell interfaces governs their impact as positional signals

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Listed:
  • Damianos S. Skopelitis

    (Cold Spring Harbor Laboratory)

  • Kristine Hill

    (University of Tübingen)

  • Simon Klesen

    (University of Tübingen)

  • Cristina F. Marco

    (Cold Spring Harbor Laboratory)

  • Patrick Born

    (Cold Spring Harbor Laboratory)

  • Daniel H. Chitwood

    (Cold Spring Harbor Laboratory
    Michigan State University)

  • Marja C. P. Timmermans

    (Cold Spring Harbor Laboratory
    University of Tübingen)

Abstract

Mobile small RNAs serve as local positional signals in development and coordinate stress responses across the plant. Despite its central importance, an understanding of how the cell-to-cell movement of small RNAs is governed is lacking. Here, we show that miRNA mobility is precisely regulated through a gating mechanism polarised at defined cell–cell interfaces. This generates directional movement between neighbouring cells that limits long-distance shoot-to-root trafficking, and underpins domain-autonomous behaviours of small RNAs within stem cell niches. We further show that the gating of miRNA mobility occurs independent of mechanisms controlling protein movement, identifying the small RNA as the mobile unit. These findings reveal gate-keepers of cell-to-cell small RNA mobility generate selectivity in long-distance signalling, and help safeguard functional domains within dynamic stem cell niches while mitigating a ‘signalling gridlock’ in contexts where developmental patterning events occur in close spatial and temporal vicinity.

Suggested Citation

  • Damianos S. Skopelitis & Kristine Hill & Simon Klesen & Cristina F. Marco & Patrick Born & Daniel H. Chitwood & Marja C. P. Timmermans, 2018. "Gating of miRNA movement at defined cell-cell interfaces governs their impact as positional signals," Nature Communications, Nature, vol. 9(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-05571-0
    DOI: 10.1038/s41467-018-05571-0
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