NCBI Logo
GEO Logo
   NCBI > GEO > Accession DisplayHelp Not logged in | LoginHelp
GEO help: Mouse over screen elements for information.
          Go
Sample GSM227652 Query DataSets for GSM227652
Status Public on Dec 31, 2007
Title rad50S 5h ChIP rep3
Sample type genomic
 
Source name ChIP
Organism Saccharomyces cerevisiae
Characteristics anti-Spo11-HA ChIP
Treatment protocol Chromatin immunoprecipitation of HA-tagged Spo11 from a rad50S strain was performed as described in the following references with only minor modifications, using cells from a culture 5 hr after initiation of sporulation (Borde V, Lin W, Novikov E, Petrini JH, Lichten M, et al. (2004) Mol Cell 13: 389-401 and Gerton JL, DeRisi J, Shroff R, Lichten M, Brown PO, et al. (2000) Proc Natl Acad Sci U S A 97: 11383-11390.
Extracted molecule genomic DNA
Extraction protocol glass beads DNA preparation was used
Label Cy5
Label protocol Two successive primer extensions (Round A) were performed on DNA samples using T7 sequenase polymerase (USB) and primerA (5'-GTTTCCCAGTCACGATCNNNNNNNNN-3'), the first 17 nt of which are absent from S. cerevisiae genome. For ssDNA-enriched material, the first extension was performed without prior denaturation to select for the single strand templates; for ChIP samples both extensions were preceded by denaturation. The following program was used: 10 °C to 37 °C ramp over 8 min; 37 °C for 8 min; 94 °C for 2 min; 10°C for 5 min while adding sequenase; 10 °C to 37 °C over 8 min; 37°C for 8 min; 24 ˚C for 10 sec. All amplifications included a second round (Round B) using Taq polymerase (Promega) and primer B (5'-GTTTCCCAGTCACGATC-3') using the following program: 95 ˚C for 30 sec; 47 ˚C for 30 sec; 72 ˚C for 2 min; for 15, 18, 21, 24 or 27 cycles. The extent of amplification was assayed by displaying 5% of each reaction on a 1.5% agarose gel and staining with SYBR green (Molecular Probes). Samples with the least number of amplification cycles showing detectable product were selected, and primer dimmers were removed by two successive filtration/wash cycles using Microcon YM-100 spin filters (Millipore) and 500 µl of TE. Aminoallyl-dUTP was then incorporated by PCR (Round C) using the same program and primers as in Round B, but a 3/2 ratio of aadUTP/dTTP and 15 units of Taq polymerase per reaction. Amplified material was purified by two successive filtration/wash cycles using Microcon YM-100 spin filters (Millipore) 500 µl of 10 mM Na2CO3 pH 8.9. 2µg of amplified material from Round C was labeled with Cy-5 monoreactive dye (GE Healthcare) and 500 ng of similarly amplified control material (BND cellulose input or whole cell extract) was labeled with Cy-3 (GE Healthcare) in 50 mM Na2CO3 pH 8.9 for 1 hour in the dark. Unincorporated dye was removed by 3 successive washes with 400 µl MES 50 mM pH 7.2 (Sigma) using Microcon YM-50 spin filters (Millipore). Dye incorporation was estimated using by measuring dye adsorbance at 550 nm (Cy-3) and 650 nm (Cy-5) in final products.
 
Hybridization protocol 500 ng of each labeled sample were hybridized to an Agilent yeast whole genome oligonucleotide array (Agilent, G4486A) for 17 hours at 60˚C in the 1X hybridization buffer supplied by Agilent. Slides were washed for 5 min in 6X SSPE, 0.05% (w/v) N-lauroylsarcosine, once in 0.06X SSPE for 5 minutes, and were then rinsed in the stabilizing and drying solutions supplied by Agilent.
Scan protocol Slides were canned using an Axon 4000B scanner set at 10 µm resolution with automatically adjusting laser PMT values to achieve a maximum fluorescence saturation of 0.005%. Fluorescence data was extracted using GenePix 6.0 (Axon) software. For each channel, features were filtered according to the following criteria. First, all spots with a diameter less than 50 µm were removed. The background fluorescence in each channel was then calculated using the mean fluorescence value of 315 empty array elements. All array elements with fluorescence less than background + 2 standard deviations were removed, as were all array elements with a signal to background ratio (signal +background)/ background) less than 3.
Description S. cerevisiae (SK1)
Data processing Background normalization of fluorescence signals in each channel was performed using a subset of probes for which the presence of meiotic single strand DNA is unlikely. The median fluorescence intensity of background probes was used to normalize the fluorescence intensity for each spots in each channel. (see Buhler et al, Table S2 for details about the choices of background probes used in this study)
 
Submission date Sep 07, 2007
Last update date Aug 14, 2011
Contact name Michael Lichten
E-mail(s) [email protected]
Phone 301 496 9760
Fax 301 402 3095
Organization name National Cancer Institute
Department LBMB
Street address 37 Convent Dr
City Bethesda
State/province MD
ZIP/Postal code 20892-4260
Country USA
 
Platform ID GPL3737
Series (1)
GSE8981 Meiotic DNA double strand breaks in the yeast Saccaromyces cerevisiae

Data table header descriptions
ID_REF
S288c specific probes The filtering conditions described above identified a set of array elements that were consistently removed from independent hybridizations with genomic DNA, sheared by sonication to an average size of 1 kb and labeled as above with Cy-3. These elements most likely represent sequences present in the reference strain but absent from SK1. 515 of a total of 41282 array elements met this criterion and were removed from subsequent analyses. These elements are lebelled S288c
DSBs bckgrd probes probes used for background normalization (B). Background normalization of fluorescence signals in each channel was performed using a subset of probes for which the presence of meiotic single strand DNA is unlikely. The median fluorescence intensity of background probes was used to normalize the fluorescence intensity for each spots in each channel.
VALUE Background-normalized fluorescence

Data table
ID_REF S288c specific probes DSBs bckgrd probes VALUE
44290
43860
43430
43000 3.802197802
42570 2.238095238
42140 B 0.179487179
41710 2.014652015
41280 1.820512821
40850 3.509157509
40420 0.501831502
39990 0.223443223
39560 5.315018315
39130
38700 2.864468864
38270 1.750915751
37840 3.791208791
37410 0.468864469
36980 0.263736264
36550 12.49084249
36120 1.769230769

Total number of rows: 44290

Table truncated, full table size 799 Kbytes.




Supplementary file Size Download File type/resource
GSM227652.gpr.gz 6.1 Mb (ftp)(http) GPR
Processed data included within Sample table

| NLM | NIH | GEO Help | Disclaimer | Accessibility |
NCBI Home NCBI Search NCBI SiteMap