FSU Repli-chip Downloadable Files
  Replication Timing by Repli-chip from ENCODE/FSU   (Track settings)
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 32 files Cell Line Rep View Platform Lab ID UCSC Accession GEO Accession Size File Type Submitted RESTRICTED
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BG02ES1Raw dataGPL13190BG02hESC_R1_293676wgEncodeEH002768GSM500933 73 MBpair.tar2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; md5sum=a3e2b93d171bda6eb5dc6e90e64d482f;
BG02ES1Wavelet-smoothed SignalGPL13190BG02hESC_R1_293676wgEncodeEH002768   30 MBbigWig2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; tableName=wgEncodeFsuRepliChipBg02esWaveSignalRep1; md5sum=1df949efc4c057a9740bfe6a29b25a9c;
BG02ES2Raw dataGPL13190BG02hESC_R2_294988wgEncodeEH002768GSM500934 73 MBpair.tar2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; md5sum=15bb67e1bf0dc7f14426adc2764dd09e;
BG02ES2Wavelet-smoothed SignalGPL13190BG02hESC_R2_294988wgEncodeEH002768   30 MBbigWig2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; tableName=wgEncodeFsuRepliChipBg02esWaveSignalRep2; md5sum=49f702e5f5af423cfd86b3d5ede8c8b3;
GM069901Raw dataGPL14965GM06990_R1_434444_A01_62510wgEncodeEH002769   24 MBpair.tar2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; md5sum=d773f3f95ca338657c38e8f6ea06d9ac;
GM069901Wavelet-smoothed SignalGPL14965GM06990_R1_434444_A01_62510wgEncodeEH002769   14 MBbigWig2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; tableName=wgEncodeFsuRepliChipGm06990WaveSignalRep1; md5sum=11aa2d0795458559eb6a0220a97f1086;
GM069902Raw dataGPL14965GM06990_R2_434444_A02_62510wgEncodeEH002769   24 MBpair.tar2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; md5sum=b3b133fd78871fc5b590f0ffef68fa1b;
GM069902Wavelet-smoothed SignalGPL14965GM06990_R2_434444_A02_62510wgEncodeEH002769   14 MBbigWig2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; tableName=wgEncodeFsuRepliChipGm06990WaveSignalRep2; md5sum=bd27c5dbe8a83363ab42407d58bfc482;
H1-hESC1Raw dataGPL13190H1hESC_R1_15470602wgEncodeEH002770   76 MBpair.tar2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; md5sum=2ba3b56bff47d7a70fbdc3c350c97553;
H1-hESC1Wavelet-smoothed SignalGPL13190H1hESC_R1_15470602wgEncodeEH002770   30 MBbigWig2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; tableName=wgEncodeFsuRepliChipH1hescWaveSignalRep1; md5sum=0dba05ca6288d848183eba418442f8cd;
H1-hESC2Raw dataGPL13190H1hESC_R2_293676wgEncodeEH002770   73 MBpair.tar2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; md5sum=8d7e2f14379170359524719247e3e0a3;
H1-hESC2Wavelet-smoothed SignalGPL13190H1hESC_R2_293676wgEncodeEH002770   30 MBbigWig2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; tableName=wgEncodeFsuRepliChipH1hescWaveSignalRep2; md5sum=fbab85afa7000f2837ad5c1858a7c92b;
H1-hESC3Raw dataGPL13190H1-hESC_R3_294986wgEncodeEH002770   73 MBtar2012-07-282012-07-28dataVersion=ENCODE Jul 2012 Freeze; subId=7727; md5sum=e599a0beb39f635b59f66733c9add973;
H1-hESC3Wavelet-smoothed SignalGPL13190H1-hESC_R3_294986wgEncodeEH002770   30 MBbigWig2012-07-282012-07-28dataVersion=ENCODE Jul 2012 Freeze; subId=7727; tableName=wgEncodeFsuRepliChipH1hescWaveSignalRep3; md5sum=a715b0a51d2efe63f17b257f48ae5d5b;
H7-hESC1Raw dataGPL13190H7hESC_R1_294986wgEncodeEH002771GSM500935 71 MBpair.tar2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; md5sum=02c7bded35050b107c55985e1d01e450;
H7-hESC1Wavelet-smoothed SignalGPL13190H7hESC_R1_294986wgEncodeEH002771   30 MBbigWig2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; tableName=wgEncodeFsuRepliChipH7esWaveSignalRep1; md5sum=60bf88aae62d5bb8ee544816a0a5813c;
H7-hESC2Raw dataGPL13190H7-hESC_R2_15470902wgEncodeEH002771   76 MBtar2012-07-282012-07-28dataVersion=ENCODE Jul 2012 Freeze; subId=7727; md5sum=c9f56ad317fa6e1144708582e0341025;
H7-hESC2Wavelet-smoothed SignalGPL13190H7-hESC_R2_15470902wgEncodeEH002771   30 MBbigWig2012-07-282012-07-28dataVersion=ENCODE Jul 2012 Freeze; subId=7727; tableName=wgEncodeFsuRepliChipH7esWaveSignalRep2; md5sum=9a644368a07d2840e302fa7f1e28aad3;
H9ES1Raw dataGPL13190H9hESC_R1_294986wgEncodeEH002772GSM500936 72 MBpair.tar2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; md5sum=dafd8868d24f4dcd6e964c1332986119;
H9ES1Wavelet-smoothed SignalGPL13190H9hESC_R1_294986wgEncodeEH002772   30 MBbigWig2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; tableName=wgEncodeFsuRepliChipH9esWaveSignalRep1; md5sum=fade5c199d02f70c1eaa2a2e50866e32;
HeLa-S31Raw dataGPL14965HeLaS3_R1_369858A02_2wgEncodeEH002773   27 MBpair.tar2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; md5sum=32e7267491a6f9e2dbe98585c85206ab;
HeLa-S31Wavelet-smoothed SignalGPL14965HeLaS3_R1_369858A02_2wgEncodeEH002773   14 MBbigWig2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; tableName=wgEncodeFsuRepliChipHelas3WaveSignalRep1; md5sum=794e88996855f3a3ba579fb9a4af235c;
IMR901Raw dataGPL14965IMR90_R1_369858-3A01wgEncodeEH002774   26 MBpair.tar2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; md5sum=1b6b711e690b4940b77598c6fe312e68;
IMR901Wavelet-smoothed SignalGPL14965IMR90_R1_369858-3A01wgEncodeEH002774   14 MBbigWig2012-03-022012-03-02dataVersion=ENCODE Mar 2012 Freeze; subId=5976; tableName=wgEncodeFsuRepliChipImr90WaveSignalRep1; md5sum=4642c3034545867d9ffa8baacc84edd3;
iPS_hFib2_iPS41Raw dataGPL13190hFib-iPS4_R1_294988wgEncodeEH003044GSM500937 73 MBtar2012-07-282012-07-28dataVersion=ENCODE Jul 2012 Freeze; subId=7727; labVersion=Cell line from GQ. Daley lab, Cell. 2008 Sep 5.134(5):877-86; md5sum=d56801ff8d877fb3b6accd8101d42c8d;
iPS_hFib2_iPS41Wavelet-smoothed SignalGPL13190hFib-iPS4_R1_294988wgEncodeEH003044   30 MBbigWig2012-07-282012-07-28dataVersion=ENCODE Jul 2012 Freeze; subId=7727; labVersion=Cell line from GQ. Daley lab, Cell. 2008 Sep 5.134(5):877-86; tableName=wgEncodeFsuRepliChipIpshfib2ips4WaveSignalRep1; md5sum=e6179f7180d97f3a1a5df9e79ba5a0e5;
iPS_hFib2_iPS42Raw dataGPL13190hFib-iPS4_R2_293676wgEncodeEH003044GSM500938 73 MBtar2012-07-282012-07-28dataVersion=ENCODE Jul 2012 Freeze; subId=7727; labVersion=Cell line from GQ. Daley lab, Cell. 2008 Sep 5.134(5):877-86; md5sum=dfaa3658113fe1f5b05afeb0cf37b2c8;
iPS_hFib2_iPS42Wavelet-smoothed SignalGPL13190hFib-iPS4_R2_293676wgEncodeEH003044   30 MBbigWig2012-07-282012-07-28dataVersion=ENCODE Jul 2012 Freeze; subId=7727; labVersion=Cell line from GQ. Daley lab, Cell. 2008 Sep 5.134(5):877-86; tableName=wgEncodeFsuRepliChipIpshfib2ips4WaveSignalRep2; md5sum=caa347696c9422754890c7bc06688867;
iPS_hFib2_iPS51Raw dataGPL13190hFib-iPS5_R1_294988wgEncodeEH003045GSM500939 72 MBtar2012-07-282012-07-28dataVersion=ENCODE Jul 2012 Freeze; subId=7727; labVersion=Cell line from GQ. Daley lab, Cell. 2008 Sep 5.134(5):877-86; md5sum=91a3bf7ae94a03683a4ef928f5d6cbe2;
iPS_hFib2_iPS51Wavelet-smoothed SignalGPL13190hFib-iPS5_R1_294988wgEncodeEH003045   30 MBbigWig2012-07-282012-07-28dataVersion=ENCODE Jul 2012 Freeze; subId=7727; labVersion=Cell line from GQ. Daley lab, Cell. 2008 Sep 5.134(5):877-86; tableName=wgEncodeFsuRepliChipIpshfib2ips5WaveSignalRep1; md5sum=55d0500dfa97afae54c9e2ceb9144d87;
iPS_hFib2_iPS52Raw dataGPL13190hFib-iPS5_R2_294709wgEncodeEH003045GSM500940 72 MBtar2012-07-282012-07-28dataVersion=ENCODE Jul 2012 Freeze; subId=7727; labVersion=Cell line from GQ. Daley lab, Cell. 2008 Sep 5.134(5):877-86; md5sum=31a431aebb69d05d71fa9232123109ef;
iPS_hFib2_iPS52Wavelet-smoothed SignalGPL13190hFib-iPS5_R2_294709wgEncodeEH003045   30 MBbigWig2012-07-282012-07-28dataVersion=ENCODE Jul 2012 Freeze; subId=7727; labVersion=Cell line from GQ. Daley lab, Cell. 2008 Sep 5.134(5):877-86; tableName=wgEncodeFsuRepliChipIpshfib2ips5WaveSignalRep2; md5sum=4be704e0dd855a044cc59df0f35ec4ad;
    32 filesRestriction Policy

Description

This track displays replication timing and was produced as part of the ENCODE Project. Replication timing refers to the order in which DNA is duplicated during the synthesis phase of the cell cycle and is correlated with the expression of genes and the structure of chromosomes. This track shows genome-wide assessment of DNA replication timing in cell lines using NimbleGen tiling CGH microarrays. Each experiment represents the relative enrichment of early versus late S-phase nascent strands in a given cell line, with data represented as a loess-smoothed function of individual timing values at probes spaced at even intervals across the genome. Regions with high values indicate domains of early replication where initiation occurs earlier in S-phase.

Display Conventions and Configuration

The graph displays a wavelet-smoothed signal of mean early/late S-phase ratios. Metadata for a particular subtrack can be found by clicking the down arrow in the list of subtracks.

Methods

Experimental Procedures

Cells were grown according to the approved ENCODE cell culture protocols. Methods for replication timing profile creation and analysis are described in detail in Hiratani et al. (2008) and Ryba et al. (June 2011). Methods for individual stages of extraction, hybridization, scanning and processing are summarized below.

For the extraction protocol, replication timing data were obtained by hybridizing early and late replication intermediates to NimbleGen oligonucleotide arrays. Replication intermediates were prepared from cells that were first pulse-labeled with 5'-bromo-2'-deoxyuridine (BrdU) and then sorted into early and late stages of S-phase by flow cytometry, followed by anti-BrdU immunoprecipitation of the BrdU-substituted (nascent) replication intermediates newly synthesized either early or late during S-phase. Samples were labeled after unbiased amplification of recovered DNA by whole-genome amplification (WGA; Sigma, GenomePlex).

The hybridization set used the NimbleGen standard hybridization protocol. Cy3- and Cy5-labeled DNA samples (6 µg each) were co-hybridized to Nimblegen CGH arrays containing evenly-spaced oligonucleotide probes across the human genome, with a median probe spacing of 1.1-5.8 kb. No differences in smoothed data have been detected with probe densities from 100 bp to 5.8 kb. The NimbleGen MS 200 2 µm resolution scanner and GenePix software were used per NimbleGen's standard scanning protocol.

Data Processing

NimbleScan software was used to obtain .pair raw data per manufacturer's instructions. Raw early/late data (i.e. from .pair files) from two independent biological replicates, in which early- and late-replicating DNA were labeled reciprocally, were loess-normalized to remove signal intensity-dependent bias. The data were then scaled to a reference data set to have the same median absolute deviation and then averaged (limma package, R/Bioconductor). The mean early/late ratios were used to generate a final smoothed profile (i.e. processed data) using local polynomial smoothing (loess, 300 kb span) for each chromosome using basic functions in the statistical language R.

Verification

Technical data quality was assessed by verifying high autocorrelation between neighboring timing values. Biological identity was confirmed by verifying consistent early or late replication by PCR at individual loci, as well as uniformity in replication profiles between replicate experiments.

Release Notes

This is Release 2 (July 2012) of this track. It adds 6 more data sets including additional replicates for H1-hESC and H7-hESC and all new data for the iPS skin fibroblast bio samples.

Credits

These data were generated by the Florida State University ENCODE group.

Contact: David M. Gilbert

References

Hiratani I, Ryba T, Itoh M, Rathjen J, Kulik M, Papp B, Fussner E, Bazett-Jones DP, Plath K, Dalton S et al. Genome-wide dynamics of replication timing revealed by in vitro models of mouse embryogenesis. Genome Res. 2010 Feb;20(2):155-69.

Hiratani I, Ryba T, Itoh M, Yokochi T, Schwaiger M, Chang CW, Lyou Y, Townes TM, Schübeler D, Gilbert DM. Global reorganization of replication domains during embryonic stem cell differentiation. PLoS Biol. 2008 Oct 7;6(10):e245.

Pope BD, Tsumagari K, Battaglia D, Ryba T, Hiratani I, Ehrlich M, Gilbert DM. DNA replication timing is maintained genome-wide in primary human myoblasts independent of D4Z4 contraction in FSH muscular dystrophy. PLoS One. 2011;6(11):e27413.

Ryba T, Battaglia D, Pope BD, Hiratani I, Gilbert DM. Genome-scale analysis of replication timing: from bench to bioinformatics. Nat Protoc. 2011 Jun;6(6):870-95.

Ryba T, Hiratani I, Lu J, Itoh M, Kulik M, Zhang J, Schulz TC, Robins AJ, Dalton S, Gilbert DM. Evolutionarily conserved replication timing profiles predict long-range chromatin interactions and distinguish closely related cell types. Genome Res. 2010 Jun;20(6):761-70.

Ryba T, Hiratani I, Sasaki T, Battaglia D, Kulik M, Zhang J, Dalton S, Gilbert DM. Replication timing: a fingerprint for cell identity and pluripotency. PLoS Comput Biol. 2011 Oct;7(10):e1002225.

Data Release Policy

Data users may freely use ENCODE data, but may not, without prior consent, submit publications that use an unpublished ENCODE dataset until nine months following the release of the dataset. This date is listed in the Restricted Until column, above. The full data release policy for ENCODE is available here.