RT Journal Article SR Electronic T1 High Phylogenetic Utility of an Ultraconserved Element Probe Set Designed for Arachnida JF bioRxiv FD Cold Spring Harbor Laboratory SP 065201 DO 10.1101/065201 A1 James Starrett A1 Shahan Derkarabetian A1 Marshal Hedin A1 Robert W. Bryson, Jr. A1 John E. McCormack A1 Brant C. Faircloth YR 2016 UL http://biorxiv.org/content/early/2016/07/22/065201.abstract AB Arachnida is an ancient, diverse, and ecologically important animal group that contains a number of species of interest for medical, agricultural, and engineering applications. Despite this applied importance, many aspects of the arachnid tree of life remain unresolved, hindering comparative approaches to arachnid biology. Biologists have made considerable efforts to resolve the arachnid phylogeny; yet, limited and challenging morphological characters, as well as a dearth of genetic resources, have confounded these attempts. Here, we present a genomic toolkit for arachnids featuring hundreds of conserved DNA regions (ultraconserved elements or UCEs) that allow targeted sequencing of any species in the arachnid tree of life. We used recently developed capture probes designed from conserved genomic regions of available arachnid genomes to enrich a sample of loci from 32 diverse arachnids. Sequence capture returned an average of 487 UCE loci for all species, with a range from 170 to 722. Phylogenetic analysis of these UCEs produced a highly resolved arachnid tree with relationships largely consistent with recent transcriptome-based phylogenies. We also tested the phylogenetic informativeness of UCE probes within the spider, scorpion, and harvestman orders, demonstrating the utility of these markers at shallower taxonomic scales, even down to the level of species differences. This probe set will open the door to phylogenomic and population genomic studies across the arachnid tree of life, enabling systematics, species delimitation, species discovery, and conservation of these diverse arthropods.