Stephany Foster scite author profile

Identifying cell states during development from their mRNA profiles provides insight into their gene regulatory network. Here we leverage the sea urchin embryo for its well-established gene regulatory network to interrogate the embryo by single cell RNA-seq. We tested eight developmental stages in Strongylocentrotus purpuratus, from the eight-cell stage to late in gastrulation. We used these datasets to parse out 22 major cell states of the embryo with focus on key transition stages for cell type specification of each germ layer. Sub-clustering of these major embryonic domains revealed over 50 cell states with distinct transcript profiles. Further, we identified the transcript profile of two cell states expressing germ cell factors, one we conclude are the primordial germ cells, and the other transiently present during gastrulation. We hypothesize that these cells of the veg2 tier of the early embryo may represent a lineage that converts to the germ line when the primordial germ cells are deleted. This broad resource will hopefully enable the community to identify other cell states and genes of interest to expose the underpinning of developmental mechanisms.

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Homoplasmy, heteroplasmy, and mitochondrial dystonia

McFarland

Chinnery²,

Blakely³

et al. 2007

Neurology

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The mitochondrial etiology identified in these patients emphasizes the pathologic potential of homoplasmic mutations and has important implications for the investigation and genetic counseling of families where dystonia is the principal clinical feature. We advocate that mitochondrial disease should be given serious consideration in patients with familial, progressive dystonia, particularly when additional neurologic features such as epilepsy are present.

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Regulation of dynamic pigment cell states at single-cell resolution

Perillo

Oulhen

Foster

et al. 2020

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Cells bearing pigment have diverse roles and are often under strict evolutionary selection. Here, we explore the regulation of pigmented cells in the purple sea urchin Strongylocentrotus purpuratus, an emerging model for diverse pigment function. We took advantage of single cell RNA-seq (scRNAseq) technology and discovered that pigment cells in the embryo segregated into two distinct populations, a mitotic cluster and a post-mitotic cluster. Gcm is essential for expression of several genes important for pigment function, but is only transiently expressed in these cells. We discovered unique genes expressed by pigment cells and test their expression with double fluorescence in situ hybridization. These genes include new members of the fmo family that are expressed selectively in pigment cells of the embryonic and in the coelomic cells of the adult - both cell-types having immune functions. Overall, this study identifies nodes of molecular intersection ripe for change by selective evolutionary pressures.

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Stephany Foster

A single cell RNA sequencing resource for early sea urchin development

Homoplasmy, heteroplasmy, and mitochondrial dystonia

Regulation of dynamic pigment cell states at single-cell resolution

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