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- Title
Tracing animal genomic evolution with the chromosomal-level assembly of the freshwater sponge Ephydatia muelleri.
- Authors
Kenny, Nathan J.; Francis, Warren R.; Rivera-Vicéns, Ramón E.; Juravel, Ksenia; de Mendoza, Alex; Díez-Vives, Cristina; Lister, Ryan; Bezares-Calderón, Luis A.; Grombacher, Lauren; Roller, Maša; Barlow, Lael D.; Camilli, Sara; Ryan, Joseph F.; Wörheide, Gert; Hill, April L.; Riesgo, Ana; Leys, Sally P.
- Abstract
The genomes of non-bilaterian metazoans are key to understanding the molecular basis of early animal evolution. However, a full comprehension of how animal-specific traits, such as nervous systems, arose is hindered by the scarcity and fragmented nature of genomes from key taxa, such as Porifera. Ephydatia muelleri is a freshwater sponge found across the northern hemisphere. Here, we present its 326 Mb genome, assembled to high contiguity (N50: 9.88 Mb) with 23 chromosomes on 24 scaffolds. Our analyses reveal a metazoan-typical genome architecture, with highly shared synteny across Metazoa, and suggest that adaptation to the extreme temperatures and conditions found in freshwater often involves gene duplication. The pancontinental distribution and ready laboratory culture of E. muelleri make this a highly practical model system which, with RNAseq, DNA methylation and bacterial amplicon data spanning its development and range, allows exploration of genomic changes both within sponges and in early animal evolution. Reconstructing the early molecular evolution of animals requires genomic resources for non-bilaterian animals. Here, the authors present the chromosome-level genome of a freshwater sponge together with analyses of its genome architecture, methylation, developmental gene expression, and microbiome.
- Subjects
BIOLOGICAL evolution; MOLECULAR evolution; CHROMOSOME duplication; DNA methylation; GENE expression
- Publication
Nature Communications, 2020, Vol 11, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-020-17397-w