Abstract
Background"Open" transcriptome analysis methods allow to study gene expression without a priori knowledge of the transcript sequences. As of now, SAGE (Serial Analysis of Gene Expression), LongSAGE and MPSS (Massively Parallel Signature Sequencing) are the mostly used methods for "open" transcriptome analysis. Both LongSAGE and MPSS rely on the isolation of 21 pb tag sequences from each transcript. In contrast to LongSAGE, the high throughput sequencing method used in MPSS enables the rapid sequencing of very large libraries containing several millions of tags, allowing deep transcriptome analysis. However, a bias in the complexity of the transcriptome representation obtained by MPSS was recently uncovered.ResultsIn order to make a deep analysis of mouse hypothalamus transcriptome avoiding the limitation introduced by MPSS, we combined LongSAGE with the Solexa sequencing technology and obtained a library of more than 11 millions of tags. We then compared it to a LongSAGE library of mouse hypothalamus sequenced with the Sanger method.ConclusionWe found that Solexa sequencing technology combined with LongSAGE is perfectly suited for deep transcriptome analysis. In contrast to MPSS, it gives a complex representation of transcriptome as reliable as a LongSAGE library sequenced by the Sanger method.
Highlights
Methods for transcriptome analysis are today diversified and can be divided in two families of technologies: "closed" and "open" techniques [1]
This later strategy has been developed in Serial Analysis of Gene Expression (SAGE) [6], LongSAGE [4] and Massively Parallel Signature Sequencing (MPSS) [7]
In contrast to the 14 bp SAGE tags generated by SAGE, the 21 bp tags obtained either by LongSAGE or MPSS can directly be mapped to the genome sequence, which is interesting for the identification of new transcribed sequences [4]
Summary
Methods for transcriptome analysis are today diversified and can be divided in two families of technologies: "closed" and "open" techniques [1]. BMC Genomics 2008, 9:418 http://www.biomedcentral.com/1471-2164/9/418 trary, open technologies analyze the transcriptome without any a priori knowledge on the transcript sequences. These methods allow the discovery of new transcribed sequences [2,3,4,5]. The most widely used methods for open transcriptome analysis are based on the sequencing of either cDNAs (known as Expressed Sequence Tags or ESTs) or of short tag sequences This later strategy has been developed in Serial Analysis of Gene Expression (SAGE) [6], LongSAGE [4] and Massively Parallel Signature Sequencing (MPSS) [7]. In contrast to the 14 bp SAGE tags generated by SAGE, the 21 bp tags obtained either by LongSAGE or MPSS can directly be mapped to the genome sequence, which is interesting for the identification of new transcribed sequences [4]
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