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    Is post-polyploidization diploidization the key to the evolutionary success of angiosperms?

    Dodsworth, Steven and Chase, M.W. and Leitch, A.R. (2016) Is post-polyploidization diploidization the key to the evolutionary success of angiosperms? Botanical Journal of the Linnean Society 180 (1), pp. 1-5. ISSN 0024-4074.

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    Abstract

    Advances in recent years have revolutionized our understanding of both the context and occurrence of polyploidy in plants. Molecular phylogenetics has vastly improved our understanding of plant relationships, enabling us to better understand trait and character evolution, including chromosome number changes. This, in turn, has allowed us to appreciate better the frequent occurrence and extent of polyploidy throughout the history of angiosperms, despite the occurrence of low chromosome numbers in some groups, such as in Arabidopsis (A.thaliana was the first plant genome to be sequenced and assembled). In tandem with an enhanced appreciation of phylogenetic relationships, the accumulation of genomic data has led to the conclusion that all angiosperms are palaeopolyploids, together with better estimates of the frequency and type of polyploidy in different angiosperm lineages. The focus therefore becomes when a lineage last underwent polyploidization, rather than simply whether a plant is 'diploid' or 'polyploid'. This legacy of past polyploidization in plants is masked by large-scale genome reorganization involving repetitive DNA loss, chromosome rearrangements (including fusions and fissions) and complex patterns of gene loss, a set of processes that are collectively termed 'diploidization'. We argue here that it is the diploidization process that is responsible for the 'lag phase' between polyploidization events and lineage diversification. If so, diploidization is important in determining chromosome structure and gene content, and has therefore made a significant contribution to the evolutionary success of flowering plants.

    Metadata

    Item Type: Article
    Keyword(s) / Subject(s): chromosome number, flowering plants, genome downsizing, genome rearrangement, genomics, lag phase, polyploidy, WGD radiation lag-time model, UKRI, NERC
    School: Birkbeck Faculties and Schools > Faculty of Science > School of Natural Sciences
    Research Centres and Institutes: Structural Molecular Biology, Institute of (ISMB)
    Depositing User: Steven Dodsworth
    Date Deposited: 23 Sep 2024 05:16
    Last Modified: 23 Sep 2024 14:28
    URI: https://eprints.bbk.ac.uk/id/eprint/54072

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