U.S. flag

An official website of the United States government

Format

Send to:

Choose Destination

SRX20598189: GSM7453787: RP_SCPN_14400; Mus musculus; OTHER
1 ILLUMINA (Illumina NovaSeq 6000) run: 51.7M spots, 5.3G bases, 1.7Gb downloads

External Id: GSM7453787_r1
Submitted by: Macklis Lab, Stem Cell & Regenerative Biology, Harvard University
Study: Development of nanoRibo-seq enables study of regulated translation by cortical neuron subtypes, showing uORF translation in synaptic-axonal genes
show Abstracthide Abstract
Investigation of translation in rare cell types or subcellular contexts is challenging due to large input requirements for standard approaches. Here, we present “nanoRibo-seq” an optimized approach using 102- to 103-fold less input material than bulk approaches. nanoRibo-seq exhibits rigorous quality control features consistent with quantification of ribosome protected fragments with as few as 1,000 cells. We compare translatomes of two closely related cortical neuron subtypes, callosal projection neurons (CPN) and subcerebral projection neurons (SCPN), during their early postnatal development. We find that, while translational efficiency is highly correlated between CPN and SCPN, several dozen mRNAs are differentially translated. We further examine upstream open reading frame (uORF) translation and identify that mRNAs involved in synapse organization and axon development are highly enriched for uORF translation in both subtypes. nanoRibo-seq enables investigation of translational regulation of rare cell types in vivo and offers a flexible approach for globally quantifying translation from limited input material. Overall design: nanoRibo-seq: low input ribosome profiling
Sample: RP_SCPN_14400
SAMN35636689 • SRS17898305 • All experiments • All runs
Organism: Mus musculus
Library:
Name: GSM7453787
Instrument: Illumina NovaSeq 6000
Strategy: OTHER
Source: TRANSCRIPTOMIC
Selection: other
Layout: PAIRED
Construction protocol: nanoRibo-seq: RPFs were gel purified, then converted into libraries using the QiA-seq miRNA kit. We performed neuronal FACS using established approaches (Catapano et al., 2001), but with the addition of translational inhibitors to prevent ex vivo elongation. For the CPN sorts, all buffers contained 100 ug/mL cycloheximide to inhibit translational elongation. We dissected brain into HBSS buffer+CHX, visualized the labeled region of cortex using an epifluorescent dissection microscope, and dissected the labeled cortical region into Disassociation Solution (DS)+CHX. We washed cortex tissue pieces twice in DS+CHX, then enzymatically digested twice by incubation in Enzyme Solution (DS with cysteine and papain)+CHX for 15 minutes each time (with inversion every 5 minutes to keep tissue pieces mixed). We washed twice in Wash Solution (WS)+CHX, triturated 15-20 times in ~1 mL of WS+CHX using fire-polished glass pipettes. We diluted the cell suspension with 4 mL WS+CHX, spun down cells for 5 minutes at 1000g, triturated again in 1 mL WS+CHX, and passed the cell suspension through a strainer cap. We added 1:1000 SYTOX Blue to be able to screen out dead cells. We then FACS-sorted the red cells, and collected them in a DNA LoBind Eppendorf Tube containing 2X polysome buffer+CHX (25 mM HEPES pH=8.0, 200 mM KCl, 10 mM MgCl2, 4 mM CaCl2, 1% nonidet P-40, 100 ug/mL CHX). For the SCPN sort, we performed all steps as described above, except that we omitted CHX until the SCPN were sorted into 2X polysome buffer+CHX.
Runs: 1 run, 51.7M spots, 5.3G bases, 1.7Gb
Run# of Spots# of BasesSizePublished
SRR2483376251,746,0905.3G1.7Gb2023-08-25

ID:
28026898

Supplemental Content

Search details

See more...

Recent activity

Your browsing activity is empty.

Activity recording is turned off.

Turn recording back on

See more...