RT Journal Article
SR Electronic
T1 Rapid and recent evolution of LTR retrotransposons drives rice genome evolution during the speciation of AA- genome <em>Oryza</em> species
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 086041
DO 10.1101/086041
A1 Qun-Jie Zhang
A1 Li-zhi Gao
YR 2016
UL http://biorxiv.org/content/early/2016/11/07/086041.abstract
AB The dynamics of LTR retrotransposons and their contribution to genome evolution during plant speciation have remained largely unanswered. Here, we perform a genome-wide comparison of all eight Oryza AA- genome species, and identify 3,911 intact LTR retrotransposons classified into 790 families. The top 44 most abundant LTR retrotransposon families show patterns of rapid and distinct diversification since the species split over the last ~4.8 Myr. Phylogenetic and read depth analyses of 11 representative retrotransposon families further provide a comprehensive evolutionary landscape of these changes. Compared with Ty1-copia, independent bursts of Ty3-gypsy retrotransposon expansions have occurred with the three largest showing signatures of lineage-specific evolution. The estimated insertion times of 2,213 complete retrotransposons from the top 23 most abundant families reveal divergent life-histories marked by speedy accumulation, decline and extinction that differed radically between species. We hypothesize that this rapid evolution of LTR retrotransposons not only divergently shaped the architecture of rice genomes but also contributed to the process of speciation and diversification of rice.