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Cell type phylogenetics informs the evolutionary origin of echinoderm larval skeletogenic cell identity.

Cell type phylogenetics informs the evolutionary origin of echinoderm larval skeletogenic cell identity.
Cell type phylogenetics informs the evolutionary origin of echinoderm larval skeletogenic cell identity.
The multiplicity of cell types comprising multicellular organisms begs the question as to how cell type identities evolve over time. Cell type phylogenetics informs this question by comparing gene expression of homologous cell types in distantly related taxa. We employ this approach to inform the identity of larval skeletogenic cells of echinoderms, a clade for which there are phylogenetically diverse datasets of spatial gene expression patterns. We determined ancestral spatial expression patterns of alx1, ets1, tbr, erg, and vegfr, key components of the skeletogenic gene regulatory network driving identity of the larval skeletogenic cell. Here we show ancestral state reconstructions of spatial gene expression of extant eleutherozoan echinoderms support homology and common ancestry of echinoderm larval skeletogenic cells. We propose larval skeletogenic cells arose in the stem lineage of eleutherozoans during a cell type duplication event that heterochronically activated adult skeletogenic cells in a topographically distinct tissue in early development.
2399-3642
Erkenbrack, EM
5e52102d-6135-4231-a33f-4933dc070f19
Thompson, JR
d2c9b7bb-3e33-4918-97c8-0c36e7af30a4
Erkenbrack, EM
5e52102d-6135-4231-a33f-4933dc070f19
Thompson, JR
d2c9b7bb-3e33-4918-97c8-0c36e7af30a4

Erkenbrack, EM and Thompson, JR (2019) Cell type phylogenetics informs the evolutionary origin of echinoderm larval skeletogenic cell identity. Communications Biology, 2, [160]. (doi:10.1038/s42003-019-0417-3).

Record type: Article

Abstract

The multiplicity of cell types comprising multicellular organisms begs the question as to how cell type identities evolve over time. Cell type phylogenetics informs this question by comparing gene expression of homologous cell types in distantly related taxa. We employ this approach to inform the identity of larval skeletogenic cells of echinoderms, a clade for which there are phylogenetically diverse datasets of spatial gene expression patterns. We determined ancestral spatial expression patterns of alx1, ets1, tbr, erg, and vegfr, key components of the skeletogenic gene regulatory network driving identity of the larval skeletogenic cell. Here we show ancestral state reconstructions of spatial gene expression of extant eleutherozoan echinoderms support homology and common ancestry of echinoderm larval skeletogenic cells. We propose larval skeletogenic cells arose in the stem lineage of eleutherozoans during a cell type duplication event that heterochronically activated adult skeletogenic cells in a topographically distinct tissue in early development.

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Published date: 3 May 2019
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Local EPrints ID: 473123
URI: http://eprints.soton.ac.uk/id/eprint/473123
DOI: doi:10.1038/s42003-019-0417-3
ISSN: 2399-3642
PURE UUID: 1400cb87-1c0d-4189-af8b-8dd65e8460d5
ORCID for JR Thompson: ORCID iD orcid.org/0000-0003-3485-172X

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Date deposited: 10 Jan 2023 18:19
Last modified: 17 Mar 2024 04:15

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Author: EM Erkenbrack
Author: JR Thompson ORCID iD

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