The link between ancient whole‐genome duplications and cold adaptations in the Caryophyllaceae

Feng, Keyi; Walker, Joseph F.; Marx, Hannah E.; Yang, Ya; Brockington, Samuel F.; Moore, Michael J.; Rabeler, Richard K.; Smith, Stephen A.

doi:10.1002/ajb2.16350

American J of Botany

2024

DOI: 10.1002/ajb2.16350

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The link between ancient whole‐genome duplications and cold adaptations in the Caryophyllaceae

Keyi Feng,

Joseph F. Walker,

Hannah E. Marx

et al.

Abstract: PremiseThe Caryophyllaceae (the carnation family) have undergone multiple transitions into colder climates and convergence on cushion plant adaptation, indicating that they may provide a natural system for cold adaptation research. Previous research has suggested that putative ancient whole‐genome duplications (WGDs) are correlated with niche shifts into colder climates across the Caryophyllales. Here, we explored the genomic changes potentially involved in one of these discovered shifts in the Caryophyllaceae… Show more

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Cited by 2 publications

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Doubling down on polyploid discoveries: Global advances in genomics and ecological impacts of polyploidy

Barker,

Jiao,

Glennon

2024

American J of Botany

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All flowering plants are now recognized as diploidized paleopolyploids (Jiao et al., 2011; One Thousand Plant Transcriptomes Initiative, 2019), and polyploid species comprise approximately 30% of contemporary plant species (Wood et al., 2009; Barker et al., 2016a). A major implication of these discoveries is that, to appreciate the evolution of plant diversity, we need to understand the fundamental biology of polyploids and diploidization. This need is broadly recognized by our community as there is a continued, growing interest in polyploidy as a research topic. Over the past 25 years, the sequencing and analysis of plant genomes has revolutionized our understanding of the importance of polyploid speciation to the evolution of land plants.

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Doubling down on polyploid discoveries: Global advances in genomics and ecological impacts of polyploidy

Barker,

Jiao,

Glennon

2024

American J of Botany

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Repeated shifts out of tropical climates preceded by whole genome duplication

Carruthers,

Gonçalves,

et al. 2024

New Phytologist

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Summary While flowering plants have diversified in virtually every terrestrial clime, climate constrains the distribution of individual lineages. Overcoming climatic constraints may be associated with diverse evolutionary phenomena including whole genome duplication (WGD), gene‐tree conflict, and life‐history changes. Climatic shifts may also have facilitated increases in flowering plant diversification rates. We investigate climatic shifts in the flowering plant order Ericales, which consists of c. 14 000 species with diverse climatic tolerances. We estimate phylogenetic trees from transcriptomic data, 64 chloroplast loci, and Angiosperms353 nuclear loci that, respectively, incorporate 147, 4508, and 2870 Ericales species. We use these phylogenetic trees to analyse how climatic shifts are associated with WGD, gene‐tree conflict, life‐history, and diversification rates. Early branches in the phylogenetic trees are extremely short, and have high levels of gene‐tree conflict and at least one WGD. On lineages descended from these early branches, there is a significant association between climatic shifts (primarily out of tropical climates), further WGDs, and life‐history. Extremely short early branches, and their associated gene‐tree conflict and WGDs, appear to underpin the explosive origin of numerous species rich Ericales clades. The evolution of diverse climatic tolerances in these species rich clades is tightly associated with WGD and life‐history.

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The link between ancient whole‐genome duplications and cold adaptations in the Caryophyllaceae

Cited by 2 publications

References 113 publications

Doubling down on polyploid discoveries: Global advances in genomics and ecological impacts of polyploidy

Doubling down on polyploid discoveries: Global advances in genomics and ecological impacts of polyploidy

Repeated shifts out of tropical climates preceded by whole genome duplication

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