Cis-regulatory divergence underpins the evolution of C3-C4 intermediate photosynthesis in Moricandia

Abstract

AbstractAltered transcript abundances and cell specific gene expression patterns that are caused by regulatory divergence play an important role in the evolution of C4 photosynthesis. How these altered gene expression patterns are achieved and whether they are driven by cis- or trans-regulatory changes is mostly unknown. To address this question, we investigated the regulatory divergence between C3 and C3-C4 intermediates, using allele specific gene expression (ASE) analyses of Moricandia arvensis (C3-C4), M. moricandioides (C3) and their interspecific F1 hybrids. ASE analysis on SNP-level showed similar relative proportions of regulatory effects among hybrids: 36% and 6% of SNPs were controlled by cis-only and trans-only changes, respectively. GO terms associated with metabolic processes and the positioning of chloroplast in cells were abundant in transcripts with cis-SNPs shared by all studied hybrids. Transcripts with cis-specificity expressed bias toward the allele from the C3-C4 intermediate genotype. Additionally, ASE evaluated on transcript-level indicated that ∼27% of transcripts show signals of ASE in Moricandia hybrids. Promoter-GUS assays on selected genes revealed altered spatial gene expression patterns, which likely result from regulatory divergence in their promoter regions. Assessing ASE in Moricandia interspecific hybrids contributes to the understanding of early evolutionary steps towards C4 photosynthesis and highlights the impact and importance of altered transcriptional regulations in this process.