Replication data for: Detecting phylogenetically destabilizing species in Potentilla L. (Rosaceae) using low-copy nuclear markersdoi:10.18710/XRQEKHDataverseNO2020-03-171Persson, Nannie L.; Toresen, Ingrid; Andersen, Heidi Lie; Smedmark, Jenny E. E.; Eriksson, Torsten, 2020, "Replication data for: Detecting phylogenetically destabilizing species in Potentilla L. (Rosaceae) using low-copy nuclear markers", https://doi.org/10.18710/XRQEKH, DataverseNO, V1Replication data for: Detecting phylogenetically destabilizing species in Potentilla L. (Rosaceae) using low-copy nuclear markersdoi:10.18710/XRQEKHPersson, Nannie L.Toresen, IngridAndersen, Heidi LieSmedmark, Jenny E. E.Eriksson, TorstenUniversity of BergenAliViewDataverseNOUniversity of BergenEriksson, TorstenPersson, Nannie2020-03-15Medicine, Health and Life Sciencessequence alignmentDNA markersgenetic markersPotentillamureslektacinquefoilphylogenetic analysisMultispecies Coalescent modelThe dataset consists of sequence alignments for the six DNA markers DHAR2, GAPCP1, GBSSI-2, SbeI, ITS and matK in fasta format for a selected number of cinquefoil species (genus Potentilla, family Rosaceae). The alignments were used in Bayesian Inference analyses and a Multispecies Coalescent analysis, with the aim of resolving the backbone phylogeny of PotentillaResolving the evolutionary history of the plant genus Potentilla (Rosaceae) has proven challenging. Previous analyses recovered six subgroups, but the relationships among some of these clades differ between data sets. We studied the incongruences by analyzing four low-copy nuclear markers, in addition to chloroplast and nuclear ribosomal data, with a set of Bayesian phylogenetic analyses. A selective taxon removal strategy demonstrated that the included representatives from the Fragarioides clade, P. dickinsii and P. fragarioides, were the main sources of the instability seen in the trees. When P. dickinsii and P. fragarioides were removed from the dataset, a fully resolved, supported backbone phylogeny of Potentilla was obtained in a Multispecies Coalescent analysis.DNA sequence data in text formatPersson NL, Toresen I, Andersen HL, Smedmark JEE, Eriksson T. 2020. Detecting phylogenetically destabilizing species in Potentilla L. (Rosaceae) using low-copy nuclear markers. Annals of Botany Plants, in pressPersson NL, Toresen I, Andersen HL, Smedmark JEE, Eriksson T. 2020. Detecting phylogenetically destabilizing species in Potentilla L. (Rosaceae) using low-copy nuclear markers. Annals of Botany Plants, in press00_README.txtDescription of the dataset.text/plainalign_DHAR2_Backbone.fastaAlignment for the DHAR2 gene.application/octet-streamalign_GAPCP1_Backbone.fastaAlignment for the GAPCP1 gene.application/octet-streamalign_GBSSI2_Backbone.fastaAlignment for the GBSSI-2 gene.application/octet-streamalign_ITS_Backbone.fastaAlignment for the ITS gene.application/octet-streamalign_matK_Backbone.fastaAlignment for the matK gene.application/octet-streamalign_SbeI_Backbone.fastaAlignment for the SbeI gene.application/octet-stream