An ABCB transporter regulates anisotropic cell expansion via cuticle deposition in the moss Physcomitrium patens

Author:

Zhang Liechi12ORCID,Sasaki‐Sekimoto Yuko3ORCID,Kosetsu Ken1,Aoyama Tsuyoshi1ORCID,Murata Takashi12ORCID,Kabeya Yukiko1,Sato Yoshikatsu1ORCID,Koshimizu Shizuka4ORCID,Shimojima Mie3ORCID,Ohta Hiroyuki3ORCID,Hasebe Mitsuyasu12ORCID,Ishikawa Masaki12ORCID

Affiliation:

1. National Institute for Basic Biology Okazaki 444‐8585 Japan

2. School of Life Science SOKENDAI (The Graduate University for Advanced Studies) Okazaki 444‐8585 Japan

3. School of Life Science and Technology Tokyo Institute of Technology Yokohama 226‐8501 Japan

4. School of Agriculture Meiji University Kawasaki 214‐8571 Japan

Abstract

Summary Anisotropic cell expansion is crucial for the morphogenesis of land plants, as cell migration is restricted by the rigid cell wall. The anisotropy of cell expansion is regulated by mechanisms acting on the deposition or modification of cell wall polysaccharides. Besides the polysaccharide components in the cell wall, a layer of hydrophobic cuticle covers the outer cell wall and is subjected to tensile stress that mechanically restricts cell expansion. However, the molecular machinery that deposits cuticle materials in the appropriate spatiotemporal manner to accommodate cell and tissue expansion remains elusive. Here, we report that PpABCB14, an ATP‐binding cassette transporter in the moss Physcomitrium patens, regulates the anisotropy of cell expansion. PpABCB14 localized to expanding regions of leaf cells. Deletion of PpABCB14 resulted in impaired anisotropic cell expansion. Unexpectedly, the cuticle proper was reduced in the mutants, and the cuticular lipid components decreased. Moreover, induced PpABCB14 expression resulted in deformed leaf cells with increased cuticle lipid accumulation on the cell surface. Taken together, PpABCB14 regulates the anisotropy of cell expansion via cuticle deposition, revealing a regulatory mechanism for cell expansion in addition to the mechanisms acting on cell wall polysaccharides.

Funder

Japan Society for the Promotion of Science

Publisher

Wiley

Subject

Plant Science,Physiology

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1. Illuminating the role of the calyptra in sporophyte development;Current Opinion in Plant Biology;2024-10

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