ZW sex chromosome structure in Amborella trichopoda

2024

Article référencé dans le Web of Science WOS:001363580600001

Carey S.B., Aközbek L., Lovell J.T., Jenkins J., Healey A.L., Shu S., Grabowski P., Yocca A., Stewart A., Jones T., Barry K., Rajasekar S., Talag J., Scutt C., Lowry P.P., Munzinger Jérôme, Knox E.B., Soltis D.E., Soltis P.S., Grimwood J., Schmutz J., Leebens-Mack J., Harkess A.

Nature Plants, 2024, 10 (12), 1944-1954 ISSN 2055-0278

Sex chromosomes have evolved hundreds of times across the flowering plant tree of life; their recent origins in some members of this clade can shed light on the early consequences of suppressed recombination, a crucial step in sex chromosome evolution. Amborella trichopoda, the sole species of a lineage that is sister to all other extant flowering plants, is dioecious with a young ZW sex determination system. Here we present a haplotype-resolved genome assembly, including highly contiguous assemblies of the Z and W chromosomes. We identify a ~3-megabase sex-determination region (SDR) captured in two strata that includes a ~300-kilobase inversion that is enriched with repetitive sequences and contains a homologue of the Arabidopsis METHYLTHIOADENOSINE NUCLEOSIDASE (MTN1-2) genes, which are known to be involved in fertility. However, the remainder of the SDR does not show patterns typically found in non-recombining SDRs, such as repeat accumulation and gene loss. These findings are consistent with the hypothesis that dioecy is derived in Amborella and the sex chromosome pair has not significantly degenerated.

Mécanismes de reproduction [076PHYBIO06]

Fonds IRD [F B010092515]

fdi:010092515