More than a spiny morphology: plastome variation in the prickly pear cacti (Opuntieae)

Author:

Köhler Matias12,Reginato Marcelo2,Jin Jian-Jun3,Majure Lucas C4

Affiliation:

1. Departamento de Biologia, Centro de Ciências Humanas e Biológicas, Universidade Federal de São Carlos , Sorocaba, SP , Brazil

2. Programa de Pós-Graduação em Botânica, Universidade Federal do Rio Grande do Sul , Porto Alegre, RS , Brazil

3. Department of Ecology, Evolution and Environmental Biology, Columbia University , New York, NY , USA

4. University of Florida Herbarium (FLAS), Florida Museum of Natural History , Gainesville, FL , USA

Abstract

Abstract Background Plastid genomes (plastomes) have long been recognized as highly conserved in their overall structure, size, gene arrangement and content among land plants. However, recent studies have shown that some lineages present unusual variations in some of these features. Members of the cactus family are one of these lineages, with distinct plastome structures reported across disparate lineages, including gene losses, inversions, boundary movements or loss of the canonical inverted repeat (IR) region. However, only a small fraction of cactus diversity has been analysed so far. Methods Here, we investigated plastome features of the tribe Opuntieae, the remarkable prickly pear cacti, which represent one of the most diverse and important lineages of Cactaceae. We assembled de novo the plastome of 43 species, representing a comprehensive sampling of the tribe, including all seven genera, and analysed their evolution in a phylogenetic comparative framework. Phylogenomic analyses with different datasets (full plastome sequences and genes only) were performed, followed by congruence analyses to assess signals underlying contentious nodes. Key Results Plastomes varied considerably in length, from 121 to 162 kbp, with striking differences in the content and size of the IR region (contraction and expansion events), including a lack of the canonical IR in some lineages and the pseudogenization or loss of some genes. Overall, nine different types of plastomes were reported, deviating in the presence of the IR region or the genes contained in the IR. Overall, plastome sequences resolved phylogenetic relationships within major clades of Opuntieae with high bootstrap values but presented some contentious nodes depending on the dataset analysed (e.g. whole plastome vs. genes only). Congruence analyses revealed that most plastidial regions lack phylogenetic resolution, while few markers are supporting the most likely topology. Likewise, alternative topologies are driven by a handful of plastome markers, suggesting recalcitrant nodes in the phylogeny. Conclusions Our study reveals a dynamic nature of plastome evolution across closely related lineages, shedding light on peculiar features of plastomes. Variation of plastome types across Opuntieae is remarkable in size, structure and content and can be important for the recognition of species in some major clades. Unravelling connections between the causes of plastome variation and the consequences for species biology, physiology, ecology, diversification and adaptation is a promising and ambitious endeavour in cactus research. Although plastome data resolved major phylogenetic relationships, the generation of nuclear genomic data is necessary to confront these hypotheses and assess the recalcitrant nodes further.

Funder

Cactus and Succulent Society of America

International Association for Plant Taxonomy

CAPES

National Science Foundation

Publisher

Oxford University Press (OUP)

Subject

Plant Science

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