Abstract
The regulatory systems underlying animal development must have evolved prior to the emergence of eumetazoans (cnidarians and bilaterians). Although representatives of earlier-branching animals – sponges ctenophores and placozoans – possess most of the developmental transcription factor families present in eumetazoans, the DNA regulatory elements that these transcription factors target remain uncharted. Here we characterise the core promoter sequences, U1 snRNP-binding sites (5′ splice sites; 5′SSs) and polyadenylation sites (PASs) in the sponge Amphimedon queenslandica. Similar to unicellular opisthokonts, Amphimedon’s genes are tightly packed in the genome and have small introns. In contrast, its genes possess metazoan-like core promoters populated with binding motifs previously deemed to be specific to vertebrates, including Nrf-1 and Krüppel-like elements. Also as in vertebrates, Amphimedon’s PASs and 5′SSs are depleted downstream and upstream of transcription start sites, respectively, consistent with non-elongating transcripts being short-lived; PASs and 5′SSs are more evenly distributed in bidirectional promoters in Amphimedon. The presence of bilaterian-like regulatory DNAs in sponges is consistent with these being early and essential innovations of the metazoan gene regulatory repertoire.
Highlights
Only promoters with annotated 5′ UTRs were used in the analysis described in the text
These evolved along the eumetazoan stem along with the expansion of key developmental transcription factor families[5,8]
Summary
The genomes and gene annotations of H. sapiens, T. rubripes, C. intestinalis, D. melanogaster and S. cerevisiae were downloaded through the ftp site of Ensembl (http://www.ensembl.org/info/data/ ftp/index.html) on March 2014. Non-coding genes were filtered out using the “coding” biotype as specified by Ensembl. The genomes of M. brevicollis, S. rosetta and C. owczarzaki were downloaded from the Broad genomes “Origins of Multicellularity” website (http://www.broadinstitute.org/annotation/genome/multicellularity_project/Downloads.html) on December 2014. The genome of T. adhaerens was downloaded from the JGI website (http://genome.jgi.doe.gov/Triad1/Triad1.download.ftp.html) on December 2015. The NCBI repository was used to retrieve the genomes of M. leidyi (http://www.ncbi.nlm.nih.gov/nuccore/AGCP00000000.1/) P. bachei (http:// www.ncbi.nlm.nih.gov/nuccore/AVPN00000000.1/) on May 2014. The A. queenslandica genome used in this study corresponds to that described in[71]
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