Genomic basis of multiphase evolution driving divergent selection of zinc-finger homeodomain genes

Abstract

Abstract Gene families divergently evolve and become adapted as different genes with specific structures and functions in living organisms. We performed comprehensive structural and functional analyses of Zinc-finger homeodomain genes (ZF-HDs), including Mini zinc-finger genes (MIFs) and Zinc-finger with homeodomain genes (ZHDs), displaying competitive functions each other. Intensive annotation updates for 90 plant genomes verified that most MIFs (MIF-Is) exhibited distinct motif compositions from ZHDs, although some MIFs (MIF-Zs) contained ZHD-specific motifs. Phylogenetic analyses suggested that MIF-Zs and ZHDs originated from the same ancestral gene, whereas MIF-Is emerged from a distinct progenitor. We used a gene-editing system to identify a novel function of MIF-Is in rice: regulating the surface material patterns in anthers and pollen through transcriptional regulation by interacting ZHDs. Kingdom-wide investigations determined that (i) ancestral MIFs diverged into MIF-Is and MIF-Zs in the last universal common ancestor, (ii) integration of HD into the C-terminal of MIF-Zs created ZHDs after emergence of green plants and (iii) MIF-Is and ZHDs subsequently expanded independently into specific plant lineages, with additional formation of MIF-Zs from ZHDs. Our comprehensive analysis provides genomic evidence for multiphase evolution driving divergent selection of ZF-HDs.