Surviving The K-t Mass Extinction: New Perspectives Of Polyploidization In Angiosperms

摘要

Although it has long been recognized that polyploidy (now often referred to as genome doubling) has played a major role in angiosperm evolution (1), analyses of genomic data have dramatically increased interest in the function of polyploidy in shaping plant genome structure and diversity (e.g., reviewed in refs. 2-5). Whereas early estimates largely based on chromosome counts suggested that perhaps 30-50% of all angiosperms may be polyploids, modern genome studies prompted the stunning realization that all or nearly all angiosperms likely have polyploidy in their evolutionary history (e.g., ref. 6). For example, analyses of the small Arabidop-sis genome, the putative "ideal" diploid, revealed 2 or 3 rounds of genomewide duplication (7, 8), and an estimated 59% of the duplicated genes over the last 350 million years are the result of whole genome duplications (WGDs) (9). There is also evidence of ancient WGD events in basal angiosperm lineages, near the origin of the eudicots, and in numerous other lineages including Vitis, Carica, and Populus (reviewed in ref. 10). This evidence for the pervasive influence of polyploidy throughout plant evolutionary history raises new questions about the evolutionary consequences of polyploidy in plants and has prompted a dramatic resurgence in the view of polyploidy as a major evolutionary force.