Overexpression of a laccase gene, DiLAC17, from Davidia involucrata causes severe seed abortion in Arabidopsis.

ABSTRACT

Seed abortion is a common phenomenon in woody plants, especially in rare and endangered species. Serious seed abortion occurs in the dove tree and largely restricts its natural reproduction. A number of differentially expressed genes (DEGs) between normal and aborted seeds of the dove tree have been previously identified through transcriptome profiling. Among these, most DEGs encoding laccase showed significant upregulation in the aborted seeds. In this study, the laccase gene with the highest expression level in aborted seeds, DiLAC17, was cloned from the dove tree genome and further verified. Overexpression of the DiLAC17 gene in Arabidopsis resulted in retarded growth, deformed siliques, and severe seed abortion. Most Arabidopsis genes involved in seed development, such as AtLEC2, AtANT1, and AtRGE1, were suppressed in the transgenic lines. Laccase activity and lignin content were significantly improved in transgenic lines under ectopic overexpression of the DiLAC17 gene. Excessive lignin accumulation in the early developmental stage was assumed to be a key cause of restricting silique growth and seed expansion, which ultimately led to seed abortion. These results indicate a laccase-mediated pathway for seed abortion, which might be a strategy adopted by this rare and endangered species to reduce the reproductive load.