MHC class II DRB gene from rodents (2008)- R5175: Sample R5175 - SRA

SRX705677: MHC class II DRB gene from rodents (2008)- R5175: Sample R5175
1 LS454 (454 GS FLX) run: 175 spots, 38,673 bases, 47,639b downloads

Design: "For each individual, genomic DNA was extracted from alcohol-preserved tissues using the DNEasy Blood & Tissue kit (QIAGEN). The second exon of the MHC - DRB class II was genotyped using a 454 Genome Sequencer FLX (Roche) with the procedure detailed in Galan et al (2010). The locus was amplified by PCR using a modified version of the primers JS1 (5'-GAGTGTCATTTCTACAACGGGAC-3') and JS2 (5'-GATCCCGTAGTTGTGTYTGCA-3') initially designed by Schad et al (2004) with the 5' addition of individual-specific MIDs (Multiplex Identifiers) and 454 adaptators required for the emPCR and the 454 GS-FLX sequencing (for more details concerning laboratory procedures, see Galan et al 2010, 2012). Galan M, Guivier E, Caraux G, Charbonnel N, Cosson JF (2010) A 454 multiplex sequencing method for rapid and reliable genotyping of highly polymorphic genes in large-scale studies. BMC Genomics 11: 296. Galan M, Pages M, Cosson JF. 2012. Next-generation sequencing for rodent barcoding: species identification from fresh, degraded and environmental samples. PLoSOne 7(11): e48374. doi:10.1371/journal.pone.0048374 Schad J, Sommer S, Ganzhorn JU (2004) MHC variability of a small lemur in the littoral forest fragments of southeastern Madagascar. Conserv Genet 5:299-309."

Submitted by: (INRA)

Study: MHC class II DRB exon 2 gene from Murinae (Rodentia)

PRJNA260564 • SRP047116 • All experiments • All runs

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High-throughput sequencing technologies offer new perspectives for biomedical, agronomical andevolutionary research. Promising progresses now concern the application of these technologies to large-scale studiesof genetic variation. Such studies require the genotyping of high numbers of samples. This is theoretically possibleusing 454 pyrosequencing, which generates billions of base pairs of sequence data. However several challenges arise:first in the attribution of each read produced to its original sample, and second, in bioinformatic analyses to distinguishtrue from artifactual sequence variation. This pilot study proposes a new application for the 454 GS FLX platform, allowing the individual genotyping of thousands of samples in one run. A probabilistic model has been developed todemonstrate the reliability of this method. DNA amplicons from 1,575 rodent samples were individually barcoded using a combination of tags located in forward and reverse primers. Amplicons consisted in 171 bp fragments (excluding primers and tags) corresponding to DRB exon 2, a highly polymorphic gene in mammals. A total of 364,442 reads were obtained, of which 249,186 were finally assigned to original samples using SESAME software.

Sample:

SAMN03021405 • SRS705246 • All experiments • All runs

Organism: Niviventer

Library:

Name: R5175

Instrument: 454 GS FLX

Strategy: AMPLICON

Source: GENOMIC

Selection: PCR

Layout: SINGLE

Spot descriptor:

1 forward

Runs: 1 run, 175 spots, 38,673 bases, 47,639b

Run	# of Spots	# of Bases	Size	Published
SRR1580256	175	38,673	47,639b	2014-09-19

ID:: 994346

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