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| Status |
Public on Dec 07, 2011 |
| Title |
Pellet_20min_(P20_20110726_8) |
| Sample type |
SRA |
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| Source name |
insoluble chromatin
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| Organism |
Saccharomyces cerevisiae |
| Characteristics |
strain: Sby5146
medium: YEPD grown:OD=0.8
antibody: none
sample type: Insoluble MNase-protected DNA fragments, 20 minute digestion
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| Extracted molecule |
genomic DNA |
| Extraction protocol |
Yeast nuclei were prepared as described [Furuyama, S., and Biggins, S. (2007), Centromere identity is specified by a single centromeric nucleosome in budding yeast, Proc Natl Acad Sci USA 104, 14706-14711], flash-frozen in liquid nitrogen and stored at -80oC. Nuclei were thawed at room temperature and digested with MNase followed by chromatin preparation as described [Furuyama and Biggins, (2007)], except that after MNase digestion, the slurry was passed four times through a 20 guage needle, then four times through a 26 guage needle [Jin, C., and Felsenfeld, G. (2007), Nucleosome stability mediated by histone variants H3.3 and H2A.Z, Genes Dev 21, 1519-1529], and the combined S1+S2 supernatants were clarified by centrifugation in a fixed-angle Sorvall SS34 rotor at 12,000 rpm at 4oC for 10 min at least twice or until no visible pellet remained. ChIP was performed as previously described [Furuyama and Biggins, (2007)], and DNA was extracted using a standard protocol [Mito, Y., Henikoff, J., and Henikoff, S. (2005), Genome-scale profiling of histone H3.3 replacement patterns, Nat Genet 37, 1090-1097]. A modified Illumina Solexa library protocol was used as described in supplementary file Solexa_library_protocol_GEO.pdf.
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| Library strategy |
MNase-Seq |
| Library source |
genomic |
| Library selection |
MNase |
| Instrument model |
Illumina HiSeq 2000 |
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| Description |
Insoluble MNase-protected DNA fragments, 20 minute digestion
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| Data processing |
1. We used Novoalign to map 25bp paired-end reads to release 61 (UCSC sacCer2) of the S.cervisiae genomic sequence obtained from downloads.yeastgenome.org. If a read was mapped to multiple locations, one location was picked at random. (Supplementary file P20_20110726_8.bam) 2. For each base pair in the genome, we counted the number of paired-end fragments aligned over it. 3. We normalized base pair counts by dividing by the total number of counts for all base pairs and then multiplying by the total number of base pairs in the genome. (Supplementary file P20_20110726_8.wig) 4. We broke down aligned paired-end fragments into sub-groups by insert size length and repeated steps 2. and 3. for the paired-end fragments in each sub-group.
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| Submission date |
Nov 18, 2011 |
| Last update date |
Jun 11, 2013 |
| Contact name |
Jorja Henikoff |
| E-mail(s) |
jorja@fhcrc.org
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| Phone |
206-667-4850
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| Organization name |
Fred Hutchinson Cancer Research Center
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| Department |
Basic Sciences
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| Lab |
Henikoff
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| Street address |
1100 Fairview AV N, A1-162
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| City |
Seattle |
| State/province |
WA |
| ZIP/Postal code |
98109-1024 |
| Country |
USA |
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| Platform ID |
GPL13821 |
| Series (1) |
| GSE28298 |
Tripartite organization of centromeric chromatin in budding yeast |
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| Relations |
| BioSample |
SAMN02197934 |
| Supplementary file |
Size |
Download |
File type/resource |
| GSM836161.wig.gz |
71.2 Mb |
(ftp)(http) |
WIG |
| GSM836161_P20_20110726_8.bam |
6.0 Gb |
(ftp)(http) |
BAM |
| Raw data provided as supplementary file |
| Processed data provided as supplementary file |
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