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Sample GSM4606 Query DataSets for GSM4606
Status Public on Jul 25, 2003
Title MGRef Cy3 vs 6APFa Cy5 710590GEO
Sample type RNA
 
Channel 1
Source name 635nm (Cy5) channel, midgut at time point 6 hr. after puparium formation
Organism Drosophila melanogaster
Extracted molecule total RNA
 
Channel 2
Source name 532nm (Cy3) channel, reference sample
Organism Drosophila melanogaster
Extracted molecule total RNA
 
 
Description The MIAME Checklist
Experiment Design:
· Type of experiment: for example, is it a comparison of normal vs. diseased tissue, a time course, or is it designed to study the effects of a gene knock-out?
Comparisons between the midgut at time points 18 hr. BPF, 4 hr. BPF, PF, 2 hr. APF, 3 hr. APF, 4 hr. APF, 5 hr. APF, 6 hr. APF, 8 hr. APF, 10 hr. APF and 12 hr. APF., vs. a reference sample. Reference sample is a mixture of the midgut samples at time points 18 hr. BPF, 4 hr. BPF, PF, 2 hr. APF, 3 hr. APF, 4 hr. APF, 5 hr. APF, 6 hr. APF, 8 hr. APF, and 12 hr. APF (BPF: before puparium formation; PF: puparium formation, also known as WPP (white prepupa); APF: after puparium formation). Animal staging is according to Andres, A.J. & Thummel, C.S. Methods for quantitative analysis of transcription in larvae and prepupae. in Methods in Cell Biology, Volume 44. Drosophila melanogaster: Practical Uses in Cell and Molecular Biology., Vol. 44 (eds. Goldstein, L.S.B. & Fyrberg, E.A.) 565-573 (Academic Press, San Diego, 1994)). The reference sample is a mixture of the above-described samples. RNA samples from Drosophila melanogaster (Canton S strain) were amplified according to Baugh, L. R., Hill, A. A., Brown, E. L., and Hunter, C. P. (2001). Quantitative analysis of mRNA amplification by in vitro transcription. Nucleic Acids Res 29, E29. Samples from the midgut at one stage were hybridized against the reference sample on each microarray.
· Experimental factors: the parameters or conditions tested, such as time, dose, or genetic variation.
Each array tested differences in gene expression at different times in development in the midgut.
· The number of hybridizations performed in the experiment.
Three replicate hybridizations for each tissue using independent samples.
· The type of reference used for the hybridizations, if any.
The reference sample is a mixture of the samples from different stages.
· Hybridization design: if applicable, a description of the comparisons made in each hybridization, whether to a standard reference sample, or between experimental samples. An accompanying diagram or table may be useful.
See above.
· Quality control steps taken: for example, replicates or dye swaps.
No dye swaps were used. Three replicates for each stage.
· URL of any supplemental websites or database accession numbers
Samples used, extract preparation and labeling:
· The origin of the biological sample (for instance, name of the organism, the provider of the sample) and its characteristics: for example, gender, age, developmental stage, strain, or disease state. See above. Tissues/Organs were dissected from at least 12 individuals for each sample.
· Manipulation of biological samples and protocols used: for example, growth conditions, treatments, separation techniques. Animals were grown on standard corn meal medium with 0.05% bromophenol blue at 25 degrees Celsius.
· Protocol for preparing the hybridization extract: for example, the RNA or DNA extraction and purification protocol
Total RNA was extracted using TriZOL. 2 ug of total RNA from each sample was amplified with T7 RNA polymerase using a one-round linear amplification protocol. RNA extraction and amplification were according to Baugh, L. R., Hill, A. A., Brown, E. L., and Hunter, C. P. (2001). Quantitative analysis of mRNA amplification by in vitro transcription. Nucleic Acids Res 29, E29.
· Labeling protocol(s).
Priming step with random hexamers. Labeling step using Superscript II, buffer, DTT, dUTP-Cy3, dUTP-Cy5 and free nucleotides. Cleanup using Qiagen PCR cleanup kit. Hybridization to slide in a TE, SSC, SDS solution with poly-A as a blocker. Hybridization chambers from DIE-TECH, incubated for 10 minutes at 42 degrees followed by approximately 15-hour incubation at 64 degrees. Three washes with successively more dilute solutions of SSC, including SDS in the first wash, then a centrifuge spin to dry. Arrays were stored in the dark until scanned. See K.P. White and K.C. Burtis "Drosophila microarrays: from arrayer construction to hybridization" in Drosophila Protocols, Cold Spring Harbor Press, 2000 for microarray protocols.
· External controls (spikes).
Hybridization procedures and parameters:
· The protocol and conditions used during hybridization, blocking and washing.
See above.
Measurement data and specifications:
· The quantitations based on the images.
Images were gridded and spots were quantified with GenePix software (Axon Instruments)
· The set of quantitations from several arrays upon which the authors base their conclusions. While access to images of raw data is not required (although its value is unquestionable), authors should make every effort to provide the following:
o Type of scanning hardware and software used: this information is appropriate for a materials and methods section.
Slides were scanned on an Axon 4000B scanner using Genepix Pro 3.0 software.
o Type of image analysis software used: specifications should be stated in the materials and methods.
The program GenePix Pro 3.0 from Axon Instruments was used to analyse the data.
o A description of the measurements produced by the image-analysis software and a description of which measurements were used in the analysis.
(F635 Median - B635), (F532 Median - B532), and (Ratio of Medians) were the raw measurements produced by the software. The detailed information for these measurements is available at http://www.axon.com/manuals/GenePix_Pro_4.0_User_Guide_Rev_E.pdf
o The complete output of the image analysis before data selection and transformation (spot quantitation matrices).
See *.xls files attached.
o Data selection and transformation procedures.
Data for all spots are filtered. For a spot to pass quality control, 3 conditions need to be met: (1). There is no automatic or manual flag during image gridding using GenePix Pro software. (2). For this spot, at least 1 channel is of at least 75% of the pixels are one SD above background. (3). The net signal noise ratio should be at least 1 for at least one channel. For the channel at 635 nm wavelength, the signal noise ratio is the ratio between (F635_median-B635_median) and the background median. The background median is the bigger of the median of B635-median of all the spots on the whole array, and B-median of this spot. For the channel at 532 nm wavelength, F532_median and B532_median are used. Ratios between net signals are log2 transformed and analyzed as detailed in the paper.
o Final gene expression data table(s) used by the authors to make their conclusions after data selection and transformation (gene expression data matrices).
See the web tables attached for the paper. Additionally, see the column for Passed and normalized ratio of median in the *.xls files attached. Data before and after data selection is in one file.
Array Design:
· General array design, including the platform type (whether the array is a spotted glass array, an in situ synthesized array, etc.); surface and coating specifications (when known - often commercial suppliers do not provide this data); and the availability of the array (the name or make of commercially available arrays).
Spotted array using PCR fragments of approximately 95% of the genes in the D. melanogaster BDGP genome. Slides were coated with polylysine, printed using a GeneMachines OmniGrid printer with DNA suspended in 3X SSC, and postprocessed using the DCE protocol of Diehl, F., Grahlmann, S., Beier, M. & Hoheisel, J.D. "Manufacturing DNA microarrays of high spot homogeneity and reduced background signal." Nucleic Acids Research 29, e38 (2001).
· For each feature (spot) on the array, its location on the array and the ID of its respective reporter (molecule present on each spot) should be given.
The KP numbers identify these and can be tied to the data files. The ID of the respective reporter is included in the Excel file Web Table PCR Primer and Amplicon Sequence.xls.
· For each reporter, its type (e.g., cDNA or oligonucleotide) should be given, along with information that characterizes the reporter molecule unambiguously, in the form of appropriate database reference(s) and sequence (if available).
The FBGN and CG numbers, primer pairs, sequences, and KP number (to tie them to the spots on the array) are all listed in the Excel file Web Table PCR Primer and Amplicon Sequence.xls.
· For commercial arrays: a reference to the manufacturer should be provided, including a catalogue number and references to the manufacturer's website if available.
· For non-commercial arrays, the following details should be provided:
o The source of the reporter molecules: for example, the cDNA or oligo collection used, with references.
o The method of reporter preparation.
o The spotting protocols used, including the array substrate, the spotting buffer, and any post-printing processing, including cross-linking.
o Any additional treatment performed prior to hybridization.
We followed a sequence of decreasingly stringent tests to pick optimal primer pairs for the PCR fragments on the arrays. For each gene, we looked for (first) a 500b to 2kb sequence at the 3' end and, failing this, (second) two 200b to 500b sequences in:(1) coding sequence, completely within an EST clot, and unduplicated (BLAST<=10^-4); (2) coding sequence, partially within an EST clot, unduplicated; (3) coding sequence, unduplicated; (4) exon, completely within an EST clot, unduplicated; (5) exon, partially within an EST clot, unduplicated; (6) exon, unduplicated; (7) sequence less than 2kb at the 3' end. See above for the other details about making these arrays.
Sample hybridized to platform version GEO_Dmel200102arrayplatform
Keywords = Drosophila, ecdysone, network, genomic, microarray, organogenesis, EcR, midgut, central nervous system, salivary gland, epidermis, imaginal disc, development
 
Submission date Feb 25, 2003
Last update date Nov 21, 2005
Contact name Tong-Ruei Li
E-mail(s) [email protected]
Phone 203-785-4474
Organization name Yale University School of Medicine
Department Department of Genetics
Lab Kevin White
Street address 333 Cedar St. Rm#NSB386
City New Haven
State/province CT
ZIP/Postal code 06511
Country USA
 
Platform ID GPL248
Series (1)
GSE543 Midgut metamorphosis timecourse

Data table header descriptions
ID_REF
X X-coordinate of the center of the feature-indicator associated with the feature, where (0,0) is the top left of the image
Y Y-coordinate of the center of the feature-indicator associated with the feature, where (0,0) is the top left of the image
Dia. Diameter in �m of the feature-indicator
F635 Median Median pixel intensity of feature for Cy5 channel
F635 Mean Mean pixel intensity of feature for Cy5 channel
F635 SD Cy5 pixel intensity standard deviation
B635 Median Median Cy5 feature background intensity
B635 Mean Mean Cy5 feature background intensity
B635 SD Cy5 background pixel intensity standard deviation
% > B635+1SD Percentage of feature pixels with intensities more than one standard deviation above the background pixel intensity, at wavelength #1 (635 nm, Cy5)
% > B635+2SD Percentage of feature pixels with intensities more than two standard deviations above the background pixel intensity, at wavelength #1 (635 nm, Cy5)
F635 % Sat. Percentage of pixel saturation within feature
F532 Median Median feature pixel intensity at wavelength #2 (532 nm, Cy3)
F532 Mean Mean feature pixel intensity at wavelength #2 (532 nm, Cy3)
F532 SD Standard deviation of the feature pixel intensity at wavelength #2 (532 nm, Cy3)
B532 Median Median feature background intensity at wavelength #2 (532 nm, Cy3)
B532 Mean Mean feature background intensity at wavelength #2 (532 nm, Cy3)
B532 SD Standard deviation of the feature background intensity at wavelength #2 (532 nm, Cy3)
% > B532+1SD Percentage of feature pixels with intensities more than one standard deviation above the background pixel intensity, at wavelength #2 (532 nm, Cy3)
% > B532+2SD Percentage of feature pixels with intensities more than two standard deviations above the background pixel intensity, at wavelength #2 (532 nm, Cy3)
F532 % Sat. Percentage of feature pixels at wavelength #2 (Cy3) that are saturated
Ratio of Medians Ratio of the background subtracted median pixel intensity at the second wavelength (Cy3), to the background subtracted median pixel intensity at the first wavelength(Cy5)
Ratio of Means Ratio of the arithmetic mean of the background subtracted raw pixel intensities at the second wavelength (Cy3), to the arithmetic mean of the background subtracted raw pixel intensities at the first wavelength (Cy5)
Median of Ratios Median of the pixel-by-pixel ratios of pixel intensities that have had the median background intensity subtracted of wavelength 2 (Cy3) to wavelength one (Cy5)
Mean of Ratios Arithmetic mean of the pixel-by-pixel ratios of the raw pixel intensities of wavelength 2 (Cy3) to wavelength 1 (Cy5)
Ratios SD Standard deviation of the log of pixel intensity ratios
Rgn Ratio Regression ratio is determined by computing a linear regression between the population of pixels represented by wavelength 1 and wavelength 2
Rgn R� Coefficient of determination provides a measure of the level of accuracy of the fit of the linear regression curve
F Pixels Number of feature pixels
B Pixels Number of background pixels
Sum of Medians Sum of the median of the pixel intensities at each wavelength, with the median background pixel intensity at each wavelength subtracted
Sum of Means Sum of the arithmetic mean of the pixel intensities at each wavelength, with the median background pixel intensity at each wavelength subtracted
Log Ratio Log Ratio
F635 Median - B635 Cy5 median feature intensity subtracted by Cy5 median background intensity
F532 Median - B532 Cy3 median feature intensity subtracted by Cy3 median background intensity
F635 Mean - B635 Cy5 mean feature intensity subtracted by Cy5 mean background intensity
F532 Mean - B532 Cy3 mean feature intensity subtracted by Cy3 mean background intensity
Flags A value of -100 means that this spot was bad. A value of -75 means that the ID for this spot is empty. A value of -50 means that this spot cannot be aligned during analysis. A value of 0 or larger than 0 means that this spot passed the flagging screen but may still fail other quality tests.
NormFactorMedian The normalization factor calculated using Ratio of Medians
VALUE same as UNF_VALUE but with flagged values removed
QUALITY For a spot to pass quality control, 3 conditions need to be met: 1. There is no automatic or manual flag during image gridding using GenePix Pro software. 2. For this spot, at least 1 channel is of at least 75% of the pixels are one SD above background. 3. The net signal noise ratio should be at least 1 for at least one channel. For the channel 635 nm wavelength, the signal noise ratio is the ratio between (F635_median-B635_median) and the background median. The background median is the bigger of the median of B635-median of all the spots on the whole array, and B-median of this spot. For the channel 532 nm wavelength, F532_median and B532_median are used.
PRE_VALUE The product of Ratio of Medians and NormFactorMedian
UNF_VALUE log2 ratio (log2 of PRE_VALUE)

Data table
ID_REF X Y Dia. F635 Median F635 Mean F635 SD B635 Median B635 Mean B635 SD % > B635+1SD % > B635+2SD F635 % Sat. F532 Median F532 Mean F532 SD B532 Median B532 Mean B532 SD % > B532+1SD % > B532+2SD F532 % Sat. Ratio of Medians Ratio of Means Median of Ratios Mean of Ratios Ratios SD Rgn Ratio Rgn R� F Pixels B Pixels Sum of Medians Sum of Means Log Ratio F635 Median - B635 F532 Median - B532 F635 Mean - B635 F532 Mean - B532 Flags NormFactorMedian VALUE QUALITY PRE_VALUE UNF_VALUE
1 16570 45210 100 1189 1418 683 243 285 511 86 46 0 1389 1462 700 275 292 161 96 93 0 0.849 0.99 1.005 1.011 2.147 1.575 0.334 80 441 2060 2362 -0.236 946 1114 1175 1187 -50 1.25183 0 1.06280367 0.0878753
2 9940 22610 90 585 593 166 250 258 99 98 78 0 668 673 139 314 317 70 100 96 0 0.946 0.955 0.964 0.947 1.852 0.979 0.42 52 371 689 702 -0.08 335 354 343 359 -50 1.25183 0 1.18423118 0.2439513
3 3160 22690 120 3684 3651 2021 257 284 181 94 92 0 4771 4988 2272 313 331 128 100 100 0 0.769 0.726 0.714 0.608 1.912 0.761 0.91 120 534 7885 8069 -0.379 3427 4458 3394 4675 -50 1.25183 0 0.96265727 -0.0549063
4 11030 27570 100 5098 5481 2680 239 263 157 100 100 0 5260 5195 2341 305 351 238 98 97 0 0.981 1.072 1.101 1.065 1.579 1.094 0.913 80 452 9814 10132 -0.028 4859 4955 5242 4890 -50 1.25183 0 1.22804523 0.2963643
5 13610 23050 100 726 825 388 233 249 131 93 81 0 683 737 263 282 295 82 91 86 0 1.229 1.301 1.184 1.329 2.366 1.496 0.541 80 450 894 1047 0.298 493 401 592 455 -50 1.25183 0 1.53849907 0.6215243
6 13030 36530 110 2154 2696 1455 218 254 243 98 98 0 1774 1948 908 280 299 133 100 100 0 1.296 1.486 1.484 1.437 1.637 1.641 0.803 80 502 3430 4146 0.374 1936 1494 2478 1668 -50 1.25183 0 1.62237168 0.6981043
7 16790 50040 110 1728 1748 404 339 401 364 100 98 0 1930 1988 373 332 383 203 100 100 0 0.869 0.851 0.818 0.836 1.305 1.024 0.582 80 454 2987 3065 -0.202 1389 1598 1409 1656 -50 1.25183 0 1.08784027 0.1214673
8 17690 40680 100 1287 1275 481 231 247 115 100 95 0 1085 1160 377 272 285 97 96 95 0 1.299 1.176 1.17 1.125 1.787 1.24 0.753 80 417 1869 1932 0.377 1056 813 1044 888 -50 1.25183 0 1.62612717 0.7014403
9 15690 49490 100 418 519 351 275 316 260 32 18 0 428 611 418 297 307 96 57 41 0 1.092 0.777 0.853 0.816 3.34 1.677 0.243 80 472 274 558 0.126 143 131 244 314 -50 1.25183 0 1.36699836 0.4510123
10 3150 31620 90 2694 2572 817 251 292 173 100 100 0 3076 2875 902 327 380 365 100 98 0 0.889 0.911 0.917 0.905 1.423 0.892 0.845 52 373 5192 4869 -0.17 2443 2749 2321 2548 -50 1.25183 0 1.11287687 0.1542943
11 13900 27580 90 2115 2184 608 219 226 90 100 100 0 1244 1255 318 287 293 64 100 100 0 1.981 2.03 2.08 2.031 1.266 2.081 0.886 52 373 2853 2933 0.986 1896 957 1965 968 -50 1.25183 0 2.47987523 1.3102683
12 18190 45200 70 992 980 490 246 275 146 87 81 0 973 1022 366 274 289 96 96 93 0 1.067 0.981 1.125 1.077 1.625 1.23 0.529 32 236 1445 1482 0.094 746 699 734 748 -50 1.25183 0 1.33570261 0.4175993
13 10920 23040 110 1597 1612 587 235 254 139 95 95 0 1550 1621 402 313 317 77 100 100 0 1.101 1.053 1.106 0.943 2.173 1.136 0.773 80 478 2599 2685 0.139 1362 1237 1377 1308 -50 1.25183 0 1.37826483 0.4628533
14 15070 36530 100 706 699 256 235 271 302 73 30 0 920 938 537 280 303 135 96 86 0 0.736 0.705 0.763 0.771 1.961 1.059 0.136 80 424 1111 1122 -0.442 471 640 464 658 -50 1.25183 0 0.92134688 -0.1181843
15 16860 27590 80 606 611 220 228 240 110 92 69 0 828 824 194 292 304 114 100 88 0 0.705 0.72 0.808 0.693 1.846 0.795 0.516 52 326 914 915 -0.504 378 536 383 532 -50 1.25183 0 0.88254015 -0.1802663
16 14280 36540 90 3334 3382 1309 233 320 455 94 94 0 3206 3172 1081 274 335 290 98 92 0 1.058 1.087 1.091 1.05 1.795 1.136 0.806 52 347 6033 6047 0.081 3101 2932 3149 2898 -50 1.25183 0 1.32443614 0.4053783
17 17600 18610 110 1695 1759 720 235 258 191 98 96 0 4623 4817 1598 268 276 93 100 100 0 0.335 0.335 0.332 0.309 1.475 0.338 0.894 80 480 5815 6073 -1.577 1460 4355 1524 4549 -50 1.25183 0 0.41936305 -1.2537283
18 9760 27200 100 4659 5633 3212 237 252 114 100 100 0 3845 4375 2620 301 310 80 98 97 0 1.248 1.324 1.36 1.395 1.507 1.31 0.897 80 439 7966 9470 0.319 4422 3544 5396 4074 -50 1.25183 0 1.56228384 0.6436573
19 2440 36330 80 4247 4519 1855 282 317 226 100 100 0 3495 3518 1232 317 349 168 100 98 0 1.248 1.324 1.348 1.303 1.548 1.398 0.852 52 328 7143 7438 0.319 3965 3178 4237 3201 -50 1.25183 0 1.56228384 0.6436573
20 12830 27390 100 5024 4837 1665 216 235 102 100 98 0 3612 3493 1041 299 306 80 100 100 0 1.451 1.447 1.441 1.4 1.521 1.478 0.925 80 442 8121 7815 0.537 4808 3313 4621 3194 -50 1.25183 0 1.81640533 0.8610863

Total number of rows: 20000

Table truncated, full table size 3800 Kbytes.




Supplementary data files not provided

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