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Sample GSM596963 Query DataSets for GSM596963
Status Public on Dec 31, 2012
Title Sc-2325-180-40-0308-3j_reanalysis
Sample type RNA
 
Source name Total RNA extracted from a pool of 1 to 2 mm antral follicles, determined as healthy using microscopic examination after Feulgen staining of some granulosa cells, originating from sow52499
Organism Sus scrofa
Characteristics annotation pf/mf/gf: PF
date hybridation-genovul: 2008-03-25
status: S
animal-number_genovul: 52499
Extracted molecule total RNA
Extraction protocol Once ovaries collected, all visible antral follicles larger than 1 mm in diameter were isolated carefully using a binocular microscope. After dissection, follicle diameter was measured and each follicle was classified according to size, animal and follicular quality. Follicles measuring 1 to 2 mm were kept and granulosa cells were recovered from all individual follicles as described previously, and they were stored at -80°C until RNA extraction. For each follicle, a sample of granulosa cells was smeared on a histological slide, and then Feulgen stained to determine follicular quality by microscopic examination. Both healthy follicles (presence of mitosis and absence of pycnosis in granulosa cells), noted SHF, and atretic follicles (absence of mitosis and presence of pycnosis in granulosa cells), noted SAF, were kept for this study. RNA was extracted from granulosa cells according to the technique described by Chomczynski and Sacchi with minor modifications using pools of granulosa cells from the same follicle size class, status and the same animal. The quality of each RNA sample was checked through the Bioanalyser Agilent 2100 (Agilent Technologies, Massy, France) and low-quality RNA preparations were discarded.
Label P33
Label protocol The arrays were hybridized with 33P-labelled complex probes synthesized from 5 µg of each RNA sample, using SuperScript II RNAse H-reverse transcriptase (Invitrogen, Cergy-Pontoise, France)
 
Hybridization protocol A porcine microarray, published in GEO database as GPL3729, described by Bonnet et al. and produced by CRB-GADIE was used to hybridize the RNA samples. Micro-arrays were first hybridized with a 33P- labelled oligonucleotide sequence present in all PCR products to control the quality of the spotting process and to evaluate the amount of DNA in each spot. After stripping, the arrays were hybridized with 33P- labelled complex probes synthesized from 5 µg of each RNA sample, using SuperScript II RNAse H- reverse transcriptase (Invitrogen, Cergy-Pontoise, France). Each complex probe has been hybridized on membrane exposed 1, 3 or 7 days to radioisotopic-sensitive imaging plates (BAS-2025, Fujifilm, Raytest, Courbevoie, France). The imaging plates were scanned thereafter with a phosphor imaging system at 25µm resolution (BAS-5000, Fujifilm, Raytest, Courbevoie, France).
Scan protocol Hybridization images obtained from oligonucleotide and complex probes were quantified using the semi-automated AGScan software.
Description Reanalysis of GSM572685. A pig nylon micro-array is hybridized with a complex 33P labelled probe
Data processing Data exploration and analysis were performed using R software. The data coming from complex probes hybridization were analysed on the logarithmic scale. As a first step, negative spot with >7 intensity values were checked on images and replaced by the median of negative spots in case of obvious overshining effect or hybridization stain. Then, luciferase positive controls were removed and the correlations of the data from each membrane were examined intra condition. Hybridizations with a lower than 0.80 correlation coefficient were discarded. Spots with low signal value (below the average of empty spots + 3 standard deviations) were considered as unexpressed and were excluded from the analysis. Finally, the negative control spots were removed and the remaining data were centred for each membrane. Thereafter, a linear model was fitted on these data, using the lm procedure on follicle type factor and differentially expressed genes were selected with R statistical software. We tested the significance of the follicle class on the gene expression using t-test (Student test) followed by the Benjamini-Hochberg procedure controlling False Discovery Rate (FDR) for each cDNA. A set of predictive genes was identified using the balanced Random Forests approach (RFs). To obtain a stable selection of genes, fifty of balanced RFs were launched with each of 15000 trees. For each cDNA, the average value of its rank in the different random forest and was calculated for two criteria of importance calculated in the Random Forest procedure: Mean decrease Gini and Mean decrease accuracy. The average rank values were plotted in a decreasing order and groups of genes with homogeneous values were made. The most important cDNAs were selected as the group of genes having the higher average rank. Finally, the relevance of the two selections was evaluated via unsupervised hierarchical clustering using the Ward method and Euclidian distance with the R functions hclust and heatmap.
 
Submission date Sep 22, 2010
Last update date Dec 31, 2012
Contact name Gwenola Tosser-Klopp
E-mail(s) gwenola.tosser@toulouse.inra.fr
Phone 33 5 61 28 51 14
Organization name INRA
Lab Genetique Cellulaire
Street address Chemin de Borde-Rouge BP 52627
City Castanet-Tolosan Cedex
ZIP/Postal code 31326
Country France
 
Platform ID GPL3729
Series (1)
GSE24273 Genovul-Ssc_atresie_060510
Relations
Reanalysis of GSM572685

Data table header descriptions
ID_REF
VALUE processed data
QIM_CONST image signal intensity constant diameter
QFIT_VAR fit signal intensity varariable diameter
FIT_CORR fit correction
QIM_VAR image signal intensity variable diameter
QFIT_CONST fit signal intensity constant diameter
DIAM variable diameter
SPOT_QUAL spot quality
OVER_CORR overshining correction
QM quality measure

Data table
ID_REF VALUE QIM_CONST QFIT_VAR FIT_CORR QIM_VAR QFIT_CONST DIAM SPOT_QUAL OVER_CORR QM
xwaa0001.a.01 null 202 188 0 277 152 350 0 0 0.72166
scan0033.o.15 1.878050422 2649 2954 -0.02225 2931 2663 328.094 1 0 0.94373
scan0027.m.18 -0.47445798 252 199 0 349 164 350 0 0 0.70568
scan0021.i.20 -0.96046195 155 238 0 209 187 350 0 0 0.84848
scan0015.f.23 null 157 152 0 207 123 350 0 0 0.80355
scan0009.f.15 null 189 110 0.00765 109 189 216.115 0 0 0.8948
scan0003.c.22 null 178 120 0.00674 123 181 235.65 0 0 0.89575
scag0005.a.07 -0.839101093 175 85 0.00681 86 174 204.848 0 0 0.87115
scac0036.g.11 -0.822103517 178 201 0 240 162 350 0 0 0.81453
scac0031.k.01 null 146 42 0 196 33 350 0 0 0.35483
scac0027.h.14 null 146 234 0 198 188 350 0 0 0.83997
CVU03687 null 318 383 0.00383 381 314 350 1 0 0.86782
CVU03687_1 null 272 340 -0.00131 340 271 350 0 0 0.86781
scan0029.b.15 null 170 156 0.00604 154 172 276.51 0 0 0.89929
scan0022.p.17 null 146 22 0.00624 22 147 107.114 0 0 0.93924
scan0016.n.12 -0.98660723 151 138 0 201 110 350 0 0 0.77838
scan0010.l.14 null 196 164 0 261 134 350 0 0 0.74749
scan0004.l.24 null 257 241 0 360 195 350 0 0 0.74785
scag0010.b.09 null 186 126 0 257 103 350 0 0 0.65137
scac0038.f.01 null 295 365 0.00376 368 296 350 0 0 0.90239

Total number of rows: 9216

Table truncated, full table size 555 Kbytes.




Supplementary data files not provided
Processed data included within Sample table

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