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Sample GSM1660704 Query DataSets for GSM1660704
Status Public on Oct 07, 2018
Title gld-2 rep2
Sample type SRA
 
Source name gld-2 rep2
Organism Caenorhabditis elegans
Characteristics strain: gld-2(q497)
developmental stage: young adult
tissue: whole worm
Treatment protocol To induce RNAi, C. elegans N2 (wildtype) worms were grown on 15 cm plates with Nematode Growth Medium spotted with concentrated E. coli HT115(DE3) expressing dsRNA of interest.
Growth protocol C. elegans N2 (wildtype) worms were grown on 15 cm plates with Nematode Growth Medium spotted with concetrated E. coli OP50.
Extracted molecule total RNA
Extraction protocol Total RNA was extracted from snap frozen cell pellets Trizol extraction. 1 microgram of this was input into the library preperation.
Library construction was by the PAT-seq approach. Breifly this involves a modified the ePAT approach to tagging adenylated RNA to generate libraries suitable for deep sequencing. Briefly, adenylated RNA is sequence specifically extended by dNTPs using Klenow polymerase and an annealed DNA anchor oligonucleotide. This takes advantage of the native function of DNA polymerase to extend an RNA primer from a DNA template in second strand synthesis. Importantly, any unwanted priming to internal poly(A)-tracts in RNA is avoided by a requirement for 3’ extension in subsequent fragment selection and reverse transcription. No ribosome depletion is necessary. Here, the anchor sequence was compatible with the Illumina index primers and included a 5’ biotin moiety to facilitate handling. In a second step, the 3’ tagged RNA was subject to limited fragmentation by RNase T1. This cleaves RNA after G-residues and ensures that cleavage is only possible within the body of the RNA, not the poly(A)-tract or the DNA sequence of the extended tag. The fragmented RNA was 5’ phosphorylated to allow RNA Ligase 2 mediated ligation of an Illumina compatible splinted-linker to the RNA fragments. Reverse transcription was primed from the anchor sequence. Note: All manipulations after limited fragmentation were performed in association with streptavidin magnetic beads. The cDNA PAT-seq libraries was eluted from beads, size-selected by Urea PAGE and amplified with primers that introduce the features for directional Illumina sequencing and indexing. In samples analysed here, the window of selection was between 120-300 bases. This size range was selected to allow for ≥ 25 bases of 3’UTR sequence to map reads to the genome, the an average yeast poly(A)-tail of ~25 bases (maximum ~90 bases), the majority of reads would contain heterogeneous 5’ sequence of sufficient length to map uniquely to the yeast genome. Note: all reads run in 5’ to 3’ direction from unique sequence into a variable length of poly(A) homopolymers. This means that color balance is preserved and that any low fidelity within the homopolymers is limited to the end of the read.
9pM of libraries per lane using Illumina c-bot. Illumina protocol 15006165 Rev J, July 2012
1 x 150bp sequencing using Illumina protocol 15035788 Rev A, Oct 2012
 
Library strategy RNA-Seq
Library source transcriptomic
Library selection cDNA
Instrument model Illumina MiSeq
 
Description Run 1, Illumina index 15
Protocol: PAT-Seq
Data processing Processing is automated using the Tail Tools pipeline (https://github.com/Victorian-Bioinformatics-Consortium/tail-tools), and proceeds as follows:
Reads are stripped of trailing poly(A) and adaptor sequence (allowing for up to 1 in 5 sequencing errors).
Reads are aligned using Bowtie2 (v2.2.4, http://bowtie-bio.sourceforge.net/bowtie2/index.shtml). Multi-mapping reads are assigned a location at random from the best alignments.
Alignments are extended where the stripped poly(A) sequence matches the reference genome. The remaining, untemplated, poly(A) length is taken as the poly(A) tail length for that read. A read is called as having a poly(A) tail if this length is at least 4 As.
Reads aligning to genes are counted. Transcript locations were downloaded from the Refseq track of the UCSC genome browser. Overlapping transcripts (mostly isoforms) were merged. As 3'UTR annotations are not always accurate, reads up to 1000 bases down-strand of a gene are counted towards that gene. Where a read might be assigned to multiple genes, it is assigned to the gene with annotated 3' end nearest to the alignment's 3' end. Total reads per gene, reads with a poly(A) tail per gene, and average poly(A) tail length are tabulated.
Genome_build: ce10
Supplementary_files_format_and_content: count.csv contains counts of reads aligning to each gene in each sample. tail_count.csv contains counts of reads with a poly(A) tail aligning to each gene in each sample. This is used when detecting differential tail length as the more reads there are, the higher the accuracy of the average in tail.csv. tail.csv contains the average poly(A) tail length observed in reads with a poly(A) tail for each gene in each sample. These files are sufficient for differential expression and differential tail length analysis with the statistics package "Fitnoise". gene.csv lists the genomic locations of the genes that were used. Locations are 1-based.
 
Submission date Apr 17, 2015
Last update date May 15, 2019
Contact name Traude Beilharz
E-mail(s) [email protected]
Organization name Monash University
Department Biomedicine Discovery Institute
Lab RNA Systems Biology Laboratory
Street address Wellington Rd
City Clayton
State/province VIC
ZIP/Postal code 3800
Country Australia
 
Platform ID GPL15716
Series (1)
GSE68002 Widespread cytoplasmic polyadenylation programs asymmetry in the germline and early embryo
Relations
BioSample SAMN03490483
SRA SRX998588

Supplementary data files not provided
SRA Run SelectorHelp
Raw data are available in SRA
Processed data are available on Series record

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