Torres-Sánchez M , Gower DJ , Alvarez-Ponce D , Creevey CJ , Wilkinson M , San Mauro D .

MCB 1818288 National Science Foundation, EEBB-I-17-12039 Ministerio de Economía y Competitividad, RYC-2011-09321 Ministerio de Economía y Competitividad, EEBB-I-16-11395 Ministerio de Economía y Competitividad, MCB 1818288 National Foundation for Science Foundation, P20 GM103440 NIGMS NIH HHS , CGL2012-40082 Ministerio de Economía y Competitividad, 5P30GM110767-04 Foundation for the National Institutes of Health, P30 GM110767 NIGMS NIH HHS , BES-2013-062723 Ministerio de Economía y Competitividad, P20GM103440 Foundation for the National Institutes of Health

	Fig. 1. Phylogenetic tree used in the tests of positive selection. Branches used as foreground branches in the different tests are indicated with numbers as follows: 1: Gymnophiona branch, 2: Teresomata branch, 3: R. bivittatum branch, 4: Microcaecilia branch, 5: Caecilia + Typhlonectes branch, 6: M. dermatophaga branch, 7: M. unicolor branch, 8: T. compressicauda branch and 9: C. tentaculata branch. Hyphothesied ecological opportunities are marked with asterisks. Phylogeny based on [40] and [69]. Note that the sampling includes species from both sides of the basal divergence within Gymnophiona, so that branch 1 terminates in the last common ancestor of all extant caecilians. (Pictures credit: MW)
	Fig. 2. General categories of biological processes from gene ontologies (GO) related to the genes under positive selection. For each of the sampled branches, the relative number of different annotated GO terms (a proxy of the number of identified genes under positive selection) under a general biological processes is symbolized by the different circle sizes (see legend)
	Fig. 3. Protein-protein interaction (PPi) network predicted from the positive selected genes of the Gymnophiona branch (branch 1) that are involved in the ECM-receptor interaction pathway with a binding interaction (blue line) between lamc1 and itga3, and a reaction interaction (black line) between vwf and qsox1 (the latter protein-coding gene is part of a second shell of interactions)

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