Germline β−1,3-glucan deposits are required for female gametogenesis in Arabidopsis thaliana

Sara C. Pinto, Weng Herng Leong, Hweiting Tan, Lauren McKee, Amelie Prevost, Chao Ma, Neil J. Shirley, Rosanna Petrella, Xiujuan Yang, Anna M. Koltunow, Vincent Bulone, Masahiro M. Kanaoka, Tetsuya Higashyiama, Sílvia Coimbra, Matthew R. Tucker

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Abstract

Correct regulation of intercellular communication is a fundamental requirement for cell differentiation. In Arabidopsis thaliana, the female germline differentiates from a single somatic ovule cell that becomes encased in β−1,3-glucan, a water insoluble polysaccharide implicated in limiting pathogen invasion, regulating intercellular trafficking in roots, and promoting pollen development. Whether β−1,3-glucan facilitates germline isolation and development has remained contentious, since limited evidence is available to support a functional role. Here, transcriptional profiling of adjoining germline and somatic cells revealed differences in gene expression related to β−1,3-glucan metabolism and signalling through intercellular channels (plasmodesmata). Dominant expression of a β−1,3-glucanase in the female germline transiently perturbed β−1,3-glucan deposits, allowed intercellular movement of tracer molecules, and led to changes in germline gene expression and histone marks, eventually leading to termination of germline development. Our findings indicate that germline β−1,3-glucan fulfils a functional role in the ovule by insulating the primary germline cell, and thereby determines the success of downstream female gametogenesis.

Original languageEnglish
Article number5875
Number of pages17
JournalNature Communications
Volume15
Issue number1
DOIs
Publication statusPublished - Dec 2024

Keywords

  • intercellular communication
  • germline
  • β−1,3-glucan deposits
  • female gametogenesis
  • Arabidopsis thaliana
  • cell differentiation

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