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Sample GSM240706 Query DataSets for GSM240706
Status Public on Nov 01, 2007
Title Larval Pan-neural, biological rep 2
Sample type RNA
 
Source name WT-Pico amplified RNA obtained from all neurons after co-IP from F25B3.3::FLAG::PAB-1 transgenic
Organism Caenorhabditis elegans
Characteristics F25B3.3::FLAG::PAB-1 transgenic
Treatment protocol For mRNA-tagging samples, synchronized L2 larvae were fixed in 0.5% formaldehyde, homogenized by passing through a French press (6000 psi on minicell) and using a Dounce homogenizer, and the cell-free extract isolated after a low-speed and high-speed spin. The FLAG-PAB bound RNA was isolated by immunoprecipitating with anti-FLAG antibodies, reversing the crosslink in a Tris buffer at 65 degrees Celcius, and TriZOL extracted.
Growth protocol A synchronized population of larvae was obtained by the following method. Gravid adults expressing either F25B3.3::FLAG::PAB-1 (pan-neural) or unc-4::FLAG::PAB-1 (A-class) transgenes were subjected to bleach/NaOH treatment to release embryos. Embryos were harvested and allowed to hatch o/n in M9 liquid. Hatched L1 larvae were harvested and placed on plates containing food to restart development. After 22-24hr, when >80% of larvae had reached the mid-L2 stage, larvae were harvested for RNA extraction.
Extracted molecule total RNA
Extraction protocol For mRNA-tagging samples, following elution/crosslink, RNAs were isolated by TriZOL extraction and isopropanol precipitation (following manufacturer's protocol).
Label biotin
Label protocol A 2-round IVT protocol (modified from the Affymetrix small-sample protocol) was used to convert 25ng of RNA into biotinylated aRNA (described in Von Stetina, Watson, et al 2007). For WT-Pico, 2 ng of these RNAs was amplified using version 1 of the WT-Ovation Pico System, which combines WT-Ovation™ Pico RNA Amplification System and target preparation according to fragmentation and labeling section of Ovation™ Biotin RNA Amplification and Labeling System as described in the respective User Guides (http://www.nugeninc.com/html/04_technical_resources1.html)
 
Hybridization protocol affymetrix
Scan protocol GeneChips were scanned using the Affymetrix GeneChip Scanner 3000 7G.
Description Gene expression data from all wildtype mid-L2 nematode neurons
Data processing Microarray data were processed as described [8, 33]. Briefly, intensity values from each hybridization were scaled vs a global average signal from the same array and normalized by Robust Multichip Average analysis (RMA) [34]. To identify differentially expressed transcripts, normalized intensity values from the Pan-neural data sets were compared to a Reference (from all larval cells) using Significance Analysis of Microarray software (SAM) [35]. A two-class unpaired analysis of the data was performed to identify neuron-enriched genes. Pan-neural enriched transcripts in the IVT and WT-Pico-derived data set were defined as 1.5X elevated vs the Reference at a False Discovery Rate (FDR) = 3%. An earlier report describing the IVT-amplified Pan-neural data set utilized a more stringent FDR of 1% and therefore identified a smaller number of Pan-neural enriched transcripts (1,562 vs 1,592 in this study) (Von Stetina et al. Watson et al. 2007).
Annotation was performed as previously described using WormBase Release 170 (WS170.wormbase.org). Affymetrix GeneChip Operating Software (GCOS) was used to calculate the average number of present calls in for each probe set (Table 1) [25]. Present calls listed in Table 2 and used to calculate Fig. 6 were identified with a perl script (consensus.pl) (Additional Data File 10). For a given sample (e.g. IVT Pan-neural) a transcript was scored “present” if it was called present in all replicates. For Fig 6., RMA-normalized intensities for these present genes were averaged across all replicates. Average Pan-neural/Reference intensities were calculated for WT-Pico and IVT data and log2 transformed. The coefficient of determination (R2) for the resulting scatter plot was calculated in Microsoft Excel. Mismatch (MM) intensities were compared against Perfect Match (PM) intensities for both Pan-neural and reference and samples using the Bioconductor [36] Affy package [36] for Fig 3 . RMA normalized intensity values for all datasets were imported into GeneSpring GX 7.3 (http://www.chem.agilent.com/scripts/pds.asp?lpage=27881) to generate the line graphs shown in Fig 7. Each Experimental dataset was normalized vs the average intensity value for each probe set in the corresponding Reference data set and plotted as log (Experimental/Reference). Each vertical line represents an individual replicate for each Experimental sample. p-values for total yield, number of present genes, and perfect vs mismatch probes were calculated using a two-tailed t-test with unequal variance. 3’ bias analysis IVT-only and WT-Pico only enriched transcripts were examined for 3’ bias. C_elegans_target.fa was downloaded from Affymetrix. This file contains the reference sequence for each probeset on the array. The file Caenorhabditis_elegans.WB170.45.dna.seqlevel.fa was downloaded from Ensembl (Ensembl 45, based on Wormbase 170). Probesets were aligned to chromosomes using BLAT [31]. Where multiple alignments were found, the alignment that covered the longest portion of the probeset sequence was chosen. The genes and chromosomal locations of those genes were downloaded using Ensembl 45. The probeset distance from the 3’ end of the gene was calculated. For genes on the (+) strand, the distance is given as (Gene End) – (Probeset End). For genes on the (-) strand, the distance is given as (Probeset Start) – (Gene Start). For probesets that correspond to multiple genes, the gene with the smallest absolute value of 3’ distance was chosen. p value was calculated using a 2-tailed t-test with equal variance.
 
Submission date Oct 31, 2007
Last update date Aug 14, 2011
Contact name David Miller
E-mail(s) david.miller@vanderbilt.edu
Phone 6153433447
Fax 6159365673
URL http://exploration.vanderbilt.edu/news/news_worm.htm
Organization name Vanderbilt University
Department Cell and Developmental Biology
Street address 465 21st Avenue South
City Nashville
State/province TN
ZIP/Postal code 37232-8240
Country USA
 
Platform ID GPL200
Series (1)
GSE9485 cRNA amplification methods enhance microarray identification of transcripts expressed in the nervous system

Data table header descriptions
ID_REF
VALUE RMA

Data table
ID_REF VALUE
171720_x_at 110.379091
171721_x_at 104.8460467
171722_x_at 32.80925852
171723_x_at 4.547592917
171724_x_at 7.221102653
171725_x_at 976.5204751
171726_x_at 133.1297616
171727_x_at 6.096698536
171728_x_at 36.92925396
171729_x_at 153.8503941
171730_x_at 71.36105777
171731_x_at 49.66411591
171732_x_at 28.36648728
171733_x_at 7.661868735
171734_x_at 1406.544571
171735_x_at 678.1214454
171736_x_at 6.066883348
171737_x_at 334.4415008
171738_x_at 482.9911176
171739_x_at 286.0691442

Total number of rows: 22548

Table truncated, full table size 495 Kbytes.




Supplementary file Size Download File type/resource
GSM240706.CEL.gz 3.1 Mb (ftp)(http) CEL
GSM240706.CHP.gz 5.5 Mb (ftp)(http) CHP
Processed data are available on Series record

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