Abstract
Key messageThis study focused on the key regulatory function of Physcomitrium patens GRAS12 gene underlying an increasing plant complexity, an important step in plant terrestrialization and the evolutionary history of life.The miR171‐GRAS module has been identified as a key player in meristem maintenance in angiosperms. PpGRAS12 is a member of the GRAS family and a validated target for miR171 in Physcomitrium (Physcomitrella) patens. Here we show a regulatory function of miR171 at the gametophytic vegetative growth stage and targeted deletion of the PpGRAS12 gene adversely affects sporophyte production since fewer sporophytes were produced in ΔPpGRAS12 knockout lines compared to wild type moss. Furthermore, highly specific and distinct growth arrests were observed in inducible PpGRAS12 overexpression lines at the protonema stage. Prominent phenotypic aberrations including the formation of multiple apical meristems at the gametophytic vegetative stage in response to elevated PpGRAS12 transcript levels were discovered via scanning electron microscopy. The production of multiple buds in the PpGRAS12 overexpression lines similar to ΔPpCLV1a/1b disruption mutants is accompanied by an upregulation of PpCLE and downregulation of PpCLV1, PpAPB, PpNOG1, PpDEK1, PpRPK2 suggesting that PpGRAS12 acts upstream of these genes and negatively regulates the proposed pathway to specify simplex meristem formation. As CLV signaling pathway components are not present in the chlorophytic or charophytic algae and arose with the earliest land plants, we identified a key regulatory function of PpGRAS12 underlying an increasing plant complexity, an important step in plant terrestrialization and the evolutionary history of life.
Highlights
The plant-specific GRAS genes encode transcriptional regulators that play key roles in plant growth and development
In this study we show that PpGRAS12 (Pp1s205_1V6.1/Pp3c12_10V3.1), a member of the GRAS family and a validated target for miR171 plays an important role in simplex meristem regulation
Plant miRNAs frequently play a role in defining the spatiotemporal expression of their cognate target messenger RNA (mRNA) and the miR171‐GRAS module has been described as a key player in meristem maintenance in A. thaliana (Huang et al 2017)
Summary
The plant-specific GRAS genes encode transcriptional regulators that play key roles in plant growth and development. MiR171 is a conserved miRNA family that exists in all major land plant groups including bryophytes (Axtell and Bowman 2008) and plays critical roles in regulating plant growth and development through repressing expression of SCARECROW-LIKE (SCL) transcripts. Three members of the HAM subfamily in A. thaliana [AtSCL6-II (Atg45160), AtSCL6-III (At3g60630) and AtSCL6-IV (At4g00150) known as the HAM (HAIRY MERISTEM) or LOM (LOST MERISTEM)] are reported targets of miR171 (Llave et al 2002) and play an important role in shoot apical meristem maintenance and axillary meristem formation, polar organization and chlorophyll synthesis (Schulze et al 2010; Wang et al 2010). SlHAM genes function in meristem maintenance, and play minor roles in the morphogenesis of a simple leaf that is determinate in tomato (Hendelman et al 2016)
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