RT Journal Article SR Electronic T1 Brachiopods possess a split Hox cluster with signs of spatial, but not temporal collinearity JF bioRxiv FD Cold Spring Harbor Laboratory SP 058669 DO 10.1101/058669 A1 Sabrina M. Schiemann A1 José M. Martín-Durán A1 Aina Børve A1 Bruno C. Vellutini A1 Yale J. Passamaneck A1 Andreas Hejnol YR 2016 UL http://biorxiv.org/content/early/2016/06/13/058669.abstract AB Hox genes are often clustered in animal genomes and exhibit spatial and/or temporal collinearity. It is generally believed that temporal collinearity is the major force preserving Hox clusters. However, studies combining genomic and gene expression analyses of Hox genes are scarce, particularly within Spiralia and Lophotrochozoa (e.g. mollusks, segmented worms, and flatworms). Here, we use two brachiopod species —Terebratalia transversa and Novocrania anomala— that respectively belong to the two major brachiopod lineages to characterize their Hox complement, the presence of a Hox cluster, and the temporal and spatial expression of their Hox genes. We demonstrate that the Hox complement consists of ten Hox genes in T. transversa (lab, pb, Hox3, dfd, scr, lox5, antp, lox4, post2 and post1) and nine in N. anomala (missing post1). Additionally, T. transversa has an ordered, split Hox cluster. Expression analyses reveal that Hox genes are neither temporally nor spatially collinear, and only the genes pb (in T. transversa), Hox3 and dfd (in both brachiopods) show staggered expression in the mesoderm. Remarkably, lab, scr, antp and post1 are associated with the development of the chaetae and shell-forming epithelium, as also observed in annelid chaetae and mollusk shell fields. This, together with the expression of Arx homeobox, supports the deep conservation of the molecular basis for chaetae formation and shell patterning in Lophotrochozoa. Our findings challenge the current evolutionary scenario that (temporal) collinearity is the major mechanism preserving Hox clusters, and suggest that Hox genes were involved in the evolution of lophotrochozoan novelties.