Upregulation and cell specificity of C₄ genes are derived from ancestral C₃ gene regulatory networks

ABSTRACT

The efficient C₄ pathway is based on strong up-regulation of genes found in C₃ plants, but also compartmentation of their expression into distinct cell-types such as the mesophyll and bundle sheath. Transcription factors associated with these phenomena have not been identified. To address this, we undertook genome-wide analysis of transcript accumulation, chromatin accessibility and transcription factor binding in C₄ Gynandropsis gynandra. From these data, two models relating to the molecular evolution of C₄ photosynthesis are proposed. First, increased expression of C₄ genes is associated with increased binding by MYB-related transcription factors. Second, mesophyll specific expression is associated with binding of homeodomain transcription factors. Overall, we conclude that during evolution of the complex C₄ trait, C₄ cycle genes gain cis-elements that operate in the C₃ leaf such that they become integrated into existing gene regulatory networks associated with cell specificity and photosynthesis.