Diversification of gene expression across extremophytes and stress-sensitive species in the Brassicaceae

Author:

Wang GuannanORCID,Ryu Kook HuiORCID,Dinneny Andrea,Carlson Joseph,Goodstein DavidORCID,Lee JiyoungORCID,Oh Dong-HaORCID,Oliva MarinaORCID,Lister RyanORCID,Dinneny José R.ORCID,Schiefelbein JohnORCID,Dassanayake MaheshiORCID

Abstract

SUMMARYStress-sensitive and stress-adapted plants respond differently to environmental stresses. To explore the cellular-level stress adaptations, we built root single-cell transcriptome atlases for diverse Brassicaceae species: stress-sensitive plants (Arabidopsis thalianaandSisymbrium irio), extremophytes (Eutrema salsugineumandSchrenkiella parvula) and a polyploid crop (Camelina sativa), under control, NaCl, and abscisic acid treatments. Approximately half of Arabidopsis cell-type markers lacked expression conservation across species. We identified new conserved cell-type markers, along with orthologs showing divergent expressions. We experimentally mapped distinct cortex sub-populations to different cortex layers across species. We found distinct cell-type-specific transcriptomic responses between species and treatments. Lineage-specific losses of stress responses were less prevalent but evolutionarily more favored than gains. InC. sativa, sub-genomes contributed equally to stress responses and homeologs with divergent stress responses typically did not exhibit high coding sequence or expression divergence. Our study provides a foundational root atlas and an analytical framework for multi-species single-cell transcriptomics.

Publisher

Cold Spring Harbor Laboratory

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