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SRX20996701: GSM7596838: Ferret2_CD90_S2; Mustela putorius furo; RNA-Seq
1 ILLUMINA (Illumina NovaSeq 6000) run: 187.3M spots, 18G bases, 6.8Gb downloads

External Id: GSM7596838_r1
Submitted by: Karthik Shekhar, Chemical and Biomolecular Engineering, UC Berkeley
Study: Evolution of neuronal cell classes and types in the vertebrate retina [ferret]
show Abstracthide Abstract
The basic plan of the retina is conserved across vertebrates, yet species differ profoundly in their visual needs (Baden et al., 2020). One might expect that retinal cell types evolved to accommodate these varied needs, but this has not been systematically studied. Here, we generated and integrated single-cell transcriptomic atlases of the retina from 17 species: humans, two non-human primates, four rodents, three ungulates, opossum, ferret, tree shrew, a teleost fish, a bird, a reptile and a lamprey. Molecular conservation of the six retinal cell classes (photoreceptors, horizontal cells, bipolar cells, amacrine cells, retinal ganglion cells [RGCs] and Müller glia) is striking, with transcriptomic differences across species correlated with evolutionary distance. Major subclasses are also conserved, whereas variation among types within classes or subclasses is more pronounced. However, an integrative analysis revealed that numerous types are shared across species based on conserved gene expression programs that likely trace back to the common ancestor of jawed vertebrates. The degree of variation among types increases from the outer retina (photoreceptors) to the inner retina (RGCs), suggesting that evolution acts preferentially to shape the retinal output. Finally, we identified mammalian orthologs of midget RGCs, which comprise >80% of RGCs in the human retina, subserve high-acuity vision, and were believed to be primate-specific (Berson, 2008); in contrast, the mouse orthologs comprise <2% of mouse RGCs. Projections both primate and mouse orthologous types are overrepresented in the thalamus, which supplies the primary visual cortex. We suggest that midget RGCs are not primate innovations, but descendants of evolutionarily ancient types that decreased in size and increased in number as primates evolved, thereby facilitating high visual acuity and increased cortical processing of visual information. Overall design: Single cell RNA-seq was performed on cells isolated from fresh retina. Fluorescence-activated cell sorting was used to collect Calcein blue(CB)-positive live cells. For some collections, CB+ cells were further seprated using CD90/THY1 and/or CD73 expression as an strategy to enrich for RGCs and/or to deplete phototreceptors, respectively (Please note that he enrichment strategy was not effective for some species/samples). Approximately 8000 cells were recovered from each sample, and each cell was sequenced to a depth of ~40000 reads.
Sample: Ferret2_CD90_S2
SAMN36418262 • SRS18270956 • All experiments • All runs
Library:
Name: GSM7596838
Instrument: Illumina NovaSeq 6000
Strategy: RNA-Seq
Source: TRANSCRIPTOMIC SINGLE CELL
Selection: cDNA
Layout: PAIRED
Construction protocol: Retinas were dissected in Ames solution (Sigma-Aldrich; equilibrated with 95% O2/5% CO2 for all use) immediately following enucleation. They were dissociated in papain, followed by FACS sorting. Cells were stained for either THY1/CD90 to enrich for RGCs or for CD73 to deplete photoreceptors. Single cell libraries were generated using the Chromium 3' V3 platform (10X Genomics, Pleasanton, CA) according to the manufacturer's protocol. Briefly, single cells were partitioned into Gel-beads-in-EMulsion (GEMs) where nuclear lysis and barcoded reverse transcription of RNA would take place to yield full-length cDNA; this was followed by amplification, enzymatic fragmentation, and 5' adaptor and sample index attachment to yield the final libraries. Single cell RNA sequecning (10X Genomics)
Runs: 1 run, 187.3M spots, 18G bases, 6.8Gb
Run# of Spots# of BasesSizePublished
SRR25250642187,274,61518G6.8Gb2023-08-06

ID:
28430555

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