Scientific Reports (Jun 2024)

Mechanical resistance of the environment affects root hair growth and nucleus dynamics

  • David Pereira,
  • Thomas Alline,
  • Léa Cascaro,
  • Emilie Lin,
  • Atef Asnacios

DOI
https://doi.org/10.1038/s41598-024-64423-8
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 13

Abstract

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Abstract Root hair (RH) cells are important for the growth and survival of seedlings. They favor plant–microbe interactions and nutrients uptake. When invading the soil, RH cells have to penetrate a dense medium exhibiting a variety of physical properties, such as mechanical resistance, that impact the growth and survival of plants. Here we investigate the effect of the mechanical resistance of the culture medium on RH-physical and phenotypical parameters such as length, time, and speed of growth. We also analyze the impact of the environment on nuclear dynamics. We show that the RH growth rate and the nucleus speed decrease similarly as mechanical resistance increases while the time of growth of RH cells is invariable. Moreover, during RH growth, the nucleus-to-tip distance was found to decrease when the stiffness of the environment was increased. Along this line, using Latrunculin B treatment in liquid growth media, we could internally slow down RH growth to reach speeds similar to those observed in stiff solid media while the nucleus-to-tip distance was only slightly affected, supporting thus the idea of a specific effect of mechanical resistance of the environment on nucleus dynamics.

Keywords