Florigen and antiflorigen gene expression correlates with reproductive state in a marine angiosperm, Zostera marina .

• Florigen and antiflorigen genes within the phosphatidylethanolamine-binding protein (PEBP) family regulate flowering in angiosperms. In eelgrass ( Zostera marina ), a marine foundation species threatened by climate change, flowering and seed production are crucial for population resilience. Yet, the molecular mechanism underpinning flowering remains unknown. • Using phylogenetic analysis and functional assays in Arabidopsis , we identified thirteen PEBP genes in Z. marina ( ZmaPEBP ) and showed that four genes altered flowering phenotypes when overexpressed. We used quantitative RT-PCR on Z. marina shoots from perennial and annual populations in Willapa Bay, USA to assess expression of these four genes in different tissue and expression changes throughout the growth season. • We demonstrated that ZmaFT2 and ZmaFT4 promote flowering, and ZmaFT9 and ZmaTFL1a repress flowering in Arabidopsis . Across five natural sites exhibiting different degrees of population genetic structure, ZmaFT2 and ZmaFT4 were expressed in leaves of vegetative and reproductive shoots and in stems and rhizomes of reproductive shoots. ZmaFT9 was distinctively expressed in leaves of vegetative and juvenile shoots, while ZmaTFL1a levels increased after flowering shoots emerged. • Our results suggest that ZmaFT2 and ZmaFT4 may promote flowering, while ZmaFT9 may inhibit a floral transition in eelgrass. We speculate that ZmaTFL1a may be involved in flowering shoot architecture.
Competing Interests: COMPETING INTERESTS The authors declare no competing interest.