Plastid genome evolution in leafless members of the orchid subfamily Orchidoideae, with a focus on <i>Degranvillea dermaptera</i>

Barrett, Craig F.; Pace, Matthew C.; Corbett, Cameron W.

doi:10.1002/ajb2.16370

American J of Botany

2024

DOI: 10.1002/ajb2.16370

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Plastid genome evolution in leafless members of the orchid subfamily Orchidoideae, with a focus on Degranvillea dermaptera

Craig F. Barrett,

Matthew C. Pace,

Cameron W. Corbett

Abstract: PremiseLeafless, heterotrophic plants are prime examples of organismal modification, the genomic consequences of which have received considerable interest. In particular, plastid genomes (plastomes) are being sequenced at a high rate, allowing continual refinement of conceptual models of reductive evolution in heterotrophs. However, numerous sampling gaps exist, hindering the ability to conduct comprehensive phylogenomic analyses in these plants.MethodsUsing floral tissue from an herbarium specimen, we sequenc… Show more

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Cited by 2 publications

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Organellar phylogenomics at the epidendroid orchid base, with a focus on the mycoheterotrophicWullschlaegelia

Barrett,

Pace,

Corbett

et al. 2024

Annals of Botany

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Background and Aims Heterotrophic plants have long been a challenge for systematists, exemplified by the base of the orchid subfamily Epidendroideae, which contains numerous mycoheterotrophic species. Methods Here we address the utility of organellar genomes in resolving relationships at the epidendroid base, specifically employing models of heterotachy, or lineage-specific rate variation over time. We further conduct comparative analyses of plastid genome evolution in heterotrophs and structural variation in matK. Key Results We present the first complete plastid genomes (plastomes) of Wullschlaegelia, the sole genus of the tribe Wullschlaegelieae, revealing a highly reduced genome of 37 kilobases, which retains a fraction of the genes present in related autotrophs. Plastid phylogenomic analyses recovered a strongly supported clade composed exclusively of mycoheterotrophic species with long branches. We further analyzed mitochondrial gene sets, which recovered similar relationships to those in other studies using nuclear data, but the placement of Wullschlaegelia remains uncertain. We conducted comparative plastome analyses among Wullschlaegelia and other heterotrophic orchids, revealing a suite of correlated substitutional and structural changes relative to autotrophic species. Lastly, we investigated evolutionary and structural variation in matK, which is retained in Wullschlaegelia and a few other ‘late stage’ heterotrophs and found evidence for structural conservation despite rapid substitution rates in both Wullschlaegelia and the leafless Gastrodia. Conclusions Our analyses reveal the limits of what the plastid genome can tell us on orchid relationships in this part of the tree, even when applying parameter-rich heterotachy models. Our study underscores the need for increased taxon sampling across all three genomes at the epidendroid base, and illustrates the need for further research on addressing heterotachy in phylogenomic analyses.

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Organellar phylogenomics at the epidendroid orchid base, with a focus on the mycoheterotrophicWullschlaegelia

Barrett,

Pace,

Corbett

et al. 2024

Annals of Botany

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Orchid phylogenetics and evolution: history, current status and prospects

Freudenstein

2024

Annals of Botany

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Background Orchidaceae are one of the two largest families of angiosperms; they exhibit a host of changes -- morphological, ecological and molecular -- that make them excellent candidates for evolutionary study. Such studies are most effectively performed in a phylogenetic context, which provides direction to character change. Understanding of orchid relationships began in the pre-evolutionary classification systems of the 1800’s that were based solely on morphology, and now is largely based on genomic analysis. The resulting patterns have been used to update family classification and to test many evolutionary hypotheses in the family. Scope Recent analyses with dense sampling and large numbers of nuclear loci have yielded well-supported trees that have confirmed many longstanding hypotheses and overturned others. They are being used to understand evolutionary change and diversification in the family. These include dating the origination of the family, analysis of change in ecological habit (from terrestrial to epiphytic and back again in some cases), revealing significant plastid genome change in leafless holomycotrophs, studying biogeographic patterns in various parts of the world, and interpreting patterns of fungal associations with orchids. Conclusion Understanding of orchid relationships has progressed significantly in recent decades, especially since DNA sequence data have been available. These data have contributed to an increasingly refined classification of orchids and the pattern has facilitated many studies on character evolution and diversification in the family. Whole genome studies of the family are just beginning and promise to reveal fine-level details underlying structure and function in these plants, and, when set in a phylogenetic context, provide a much richer understanding of how the family has been so successful in diversification.

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Plastid genome evolution in leafless members of the orchid subfamily Orchidoideae, with a focus on Degranvillea dermaptera

Cited by 2 publications

References 137 publications

Organellar phylogenomics at the epidendroid orchid base, with a focus on the mycoheterotrophicWullschlaegelia

Organellar phylogenomics at the epidendroid orchid base, with a focus on the mycoheterotrophicWullschlaegelia

Orchid phylogenetics and evolution: history, current status and prospects

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