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SRX8706915: GSM4665693: E9_FLB_wt_Hoxd9; Mus musculus; OTHER
1 ILLUMINA (Illumina HiSeq 2500) run: 2.5M spots, 74.9M bases, 41.8Mb downloads

Submitted by: NCBI (GEO)
Study: Chromatin topology and the timing of enhancer function at the HoxD locus [4C-seq]
show Abstracthide Abstract
In tetrapods, the HoxD gene cluster is critical for proper limb formation. In the emerging limb buds, different sub-groups of Hoxd genes respond first to a proximal regulatory signal, then to a distal signal that organizes digits. These two regulations emanate from the two TADs flanking HoxD, both containing a range of appropriate enhancer sequences. The telomeric TAD (T-DOM) contains several regulatory elements controlling Hoxd genes, initially in a temporal manner and then in the proximal presumptive forearm. T-DOM is divided into two sub-TADs separated by a CTCF-rich boundary defining two regulatory modules with most limb enhancers concentrated in the more distant module. In order to understand the importance of this regulatory topology to elicit a precise Hoxd gene transcription in time and space, we both deleted or inverted this sub-TAD boundary and eliminated the CTCF binding sites. These perturbations caused a time delay in gene activation, which was subsequently resumed. We then inverted the entire T-DOM to change the respective position of the two sub-TADs, which concomitantly introduced a TAD boundary between HoxD and the inverted T-DOM. This re-arrangement had a stronger impact on the early expression and flattened the Hoxd mRNAs levels. The latter effect was rescued by re-granting access to the enhancers upon deletion of the ectopic boundary. These results highlight the importance of regulatory topologies in the temporal control of gene expression. We also show that, along with time, the affinity of enhancers to find their natural target genes can overcome the presence of both a strong TAD border, and an unfavourable orientation of CTCF sites. Overall design: 4C-seq analysis of several viewpoints inside ther HoxD gene cluster and on the telomeric gene desert in developing mouse limb tissues.
Sample: E9_FLB_wt_Hoxd9
SAMN15502735 • SRS6983603 • All experiments • All runs
Organism: Mus musculus
Library:
Instrument: Illumina HiSeq 2500
Strategy: OTHER
Source: GENOMIC
Selection: other
Layout: SINGLE
Construction protocol: Micro-dissected proximal segments of E12.5 and E9 forelimbs either from wild type or mutant embryos. Tissues were dissected, dissociated with collagenase (Sigma Aldrich/Fluka) and filtered through a 35 micron mesh to isolate single cells. Cells were fixed with 2% formaldehyde (in PBS/10%FBS) for 10 min at room temperature and the reaction was quenched on ice with glycine. Cells were further lysed with 10 mM Tris pH 7.5, 10 mM NaCl, 5 mM MgCl2, 0.1 mM EDTA, 1x Protease inhibitor cocktail to isolate nuclei and stored at -80°C. Nuclei from pools of 10-12 pairs of proximal limbs or 90 to 150 were digested with NlaIII (New England Biolabs) and ligated with T4 DNA ligase HC (Promega) in diluted conditions to promote intramolecular ligation. Samples were digested again with DpnII (New England Biolabs) and ligated with T4 DNA ligase HC (Promega) in diluted conditions. These templates were amplified using Expand long template (Roche) and inversed PCR primers flanked with adaptors allowing multiplexing. The illumina adaptors used were 5'-AATGATACGGCGACCACCGAACACTCTTTCCCTACACGACGCTCTTCCGATCT-3' for the inverse-forward primers located at the NlaII site and 5'-CAAGCAGAAGACGGCATACGA-3' for the inverse-reverse primers located at the DpnII site. Barcodes (4bp) were added between the illumina adaptor and the specific NlaIII primers when the same viewpoints were multiplexed in the same run. Specific primer information for each viewpoint is displayed in the related publication (Rodríguez-Carballo et al, 2020).
Experiment attributes:
GEO Accession: GSM4665693
Links:
Runs: 1 run, 2.5M spots, 74.9M bases, 41.8Mb
Run# of Spots# of BasesSizePublished
SRR121935532,495,13174.9M41.8Mb2020-11-10

ID:
11329138

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