Identification and characterization of DICER-LIKE genes and their roles in Marchantia polymorpha development and salt stress response

Abstract

DICER-LIKE (DCL) proteins play a central role in plant small RNA (sRNA) biogenesis. The genome of the early land plant Marchantia polymorpha encodes four DCL proteins: MpDCL1a, MpDCL1b, MpDCL3, and MpDCL4. While MpDCL1a, MpDCL3 and MpDCL4 show high similarities to their orthologs in Physcomitrium patens and Arabidopsis thaliana, MpDCL1b shares only a limited homology with PpDCL1b, but it is very similar, in terms of functional domains, to orthologs in other moss and fern species. We generated Mpdcl^ge mutant lines for all MpDCL genes with the CRISPR/Cas9 system and conducted phenotypic analyses under control, salt stress, and phytohormone treatments to uncover specific MpDCL functions. The mutants displayed severe developmental aberrations, altered responses to salt and phytohormones, and disturbed sexual organ development. By combining mRNA and sRNA analyses, we demonstrate that MpDCLs and their associated sRNAs play pivotal roles in regulating development, abiotic stress tolerance and phytohormone response in M. polymorpha. We identified MpDCL1a in microRNA biogenesis, MpDCL4 in trans-acting small interfering RNA generation, and MpDCL3 in the regulation of pathogen-related genes. Notably, salt sensitivity in M. polymorpha is dependent on MpDCL1b and Mpdcl1b^ge mutants display enhanced tolerance and reduced miRNA expression in response to salt stress. We propose that M. polymorpha employs specific mechanisms for regulating MpDCL1b associated miRNAs under high salinity conditions, potentially shared with other species harboring MpDCL1b homologs.