Eckart Stolle, Rodrigo Pracana, Marian K. Priebe, Gabriel Luis Hernández, Anurag Priyam, Federico López-Osorio, and Yannick Wurm
We used genomes of haploid male fire ants to create coalescent-based phylogenies of Solenopsis species and of their supergene region. We show that the supergene variant responsible for multiple-queen colonies and associated phenotypes evolved in one species and repeatedly spread across species through introgressive hybridization events. This highlights how supergene architecture can enable a complex adaptive phenotype to permeate species boundaries.
We genotyped a group of Solenopsis samples, including Solenopsis invicta, S. richteri, S. macdonaghi, S.interrupta, S. megergates, S. pusillignis, and S. saevissima. Eckart Stolle (and colleagues) collected 88 colonies from South America. We sequenced on Illumina HiSeq and stored the resulting 107 samples in the BioProject PRJNA685290. In addition, we used 260 samples from Bioprojects PRJNA396161, PRJNA542606, PRJNA421367, PRJNA450756, PRJNA182127, SRR621118, SRX021921.
All steps relating to read filtering, mapping and genotype calling are presented in the directory Genotyping. This directory also includes the identification of single-copy genes with BUSCO.
We inferred the phylogenetic tree of the species and of the supergene using three different approaches:
- A coalescent-based approached detailed in the directory Coalescence-based phylogenies
- A concatenated alignment approach detailed in the directory Phylogenies inferred with concatenated SNPs
- A dated phylogeny approach detailed in the directory Dating divergence times
A PCA of the supergene genotypes is presented in the directory PCA supergene SNPs.
- Quantification of introgression support using QuIBL, in the directory QuIBL analysis
- Topology weighting analysis using Twisst, in the directory Topology weighting
- Analysis of alleles shared between Sb and the SB haplotypes of each species, in the directory Private and shared alleles
See directory Nucleotide diversity (pi).
See directory Bray-Curtis dissimilarity.