Data from: Genome size evolution and phenotypic correlates in the poison frog family Dendrobatidae
Data files
Dec 18, 2024 version files 109.24 KB
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DouglasMarquezTarvin_GenomeSize.zip
107.17 KB
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README.md
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Abstract
Adaptive and neutral processes have produced a spectrum of genome sizes across organisms. Amphibians in particular possess a wide range in C-values, from <1 pg to over 125 pg. However, the genome size of most amphibians is unknown, and no single family has been comprehensively assessed. We provide new estimates for 32 poison frog species representing the major lineages within Dendrobatidae using Feulgen staining of museum specimens and flow cytometry of fresh tissue. We show that genome size in Dendrobatidae has likely evolved gradually, with potential evolutionary rate shifts in the genera Phyllobates and Hyloxalus, which respectively possess species with the largest (13.0 pg) and second smallest (2.6 pg) genomes in the family. Phylogenetically controlled regression analyses indicate that genome size is positively correlated with snout-vent-length, oocyte number, and clutch size, but negatively correlated with active metabolic rate and metabolic scope. While body size and metabolic rate are also correlates of toxicity, we found no relationship between genome size and the evolution of chemical defense within Dendrobatidae. Our assessment of genome size in Dendrobatidae provides insight into the processes shaping genome size evolution over short timescales and establishes a novel system in which to study the mechanistic links between genome size and organismal physiology.
README: Data from: Genome size evolution and phenotypic correlates in the poison frog family Dendrobatidae
Tyler E. Douglas, Roberto Márquez, V. Renee Holmes, J. Spencer Johnston, and Rebecca D. Tarvin
This repository is divided in three folders containing the files and code used in this paper. The contents of each are described below, and each folder has a README file within it with more details. Files were zipped for upload to Dryad.
Description of the data and file structure
Datasets: Contains all the data collected, compiled, and generated for this study. This is the folder most users will be interested in.
Phylogeny: Contains the time-callibrated tree generated for our study species as well as the input files used to generate it.
Code: Contains the code used in genome size estimation, evolutionary rate, and regression analyses.
Sharing/Access information
Some of the data used in this paper were obtained from the literature and publicly available databases. Genome sizes were obtained from the Animal Genome Size Database (https://www.genomesize.com/), sequences from GenBank (https://www.ncbi.nlm.nih.gov/genbank/, accessions in Table S3), a tree topology from Grant et al. (2017), and phenotypic data from Carvajal-Castro (2021), and Santos (2012).
References
- Carvajal-Castro, J. D., F. Vargas-Salinas, S. Casas-Cardona, B. Rojas, and J. C. Santos. 2021. Aposematism facilitates the diversification of parental care strategies in poison frogs. Scientific Reports 11:19047.
- Grant, T., M. Rada, M. Anganoy-Criollo, A. Batista, P. H. Dias, A. M. Jeckel, D. J. Machado, et al. 2017. Phylogenetic systematics of dart-poison frogs and their relatives revisited (Anura: Dendrobatoidea). South American Journal of Herpetology 12.
- Santos, J. C. 2012. Fast molecular evolution associated with high active metabolic rates in poison frogs. Molecular Biology and Evolution 29:2001–2018.
Code/Software
Specific code for analyses is in the Code folder.