Unbiased approach to profile the variety of small non-coding RNA of human blood plasma with massively parallel sequencing technology

Unbiased approach to profile the variety of small non-coding RNA of human blood plasma with massively parallel sequencing technology

Understanding structures of circulating RNA expands fundamental knowledge of cell communications and signaling pathways as well as allows developing new molecular diagnostic approaches. The aim of this study was to deploy a new approach to sequencing cDNA library construction which expands the capab...

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Bibliographic Details
Published in:Expert opinion on biological therapy Vol. 12 Suppl 1; p. S43
Main Authors: Semenov, Dmitry V, Baryakin, Dmitry N, Brenner, Evgeny V, Kurilshikov, Alexander M, Vasiliev, Gennady V, Bryzgalov, Leonid A, Chikova, Elena D, Filippova, Julia A, Kuligina, Elena V, Richter, Vladimir A
Format: Journal Article
Language:English
Published: England 01-06-2012
Subjects:
Adult
Humans
Middle Aged
RNA, Untranslated - blood
Sequence Analysis, RNA - methods
Transcriptome
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Summary:Understanding structures of circulating RNA expands fundamental knowledge of cell communications and signaling pathways as well as allows developing new molecular diagnostic approaches. The aim of this study was to deploy a new approach to sequencing cDNA library construction which expands the capabilities of high-throughput sequencing analysis of small non-coding RNAs. With the approach, we performed massively parallel sequencing of human blood plasma RNA to document profile of common and peculiar RNA species normally circulating in blood of healthy individuals. Total RNA was extracted from blood plasma samples of eight apparently healthy individuals. To obtain comprehensive cDNA libraries RNA was dephosphorylated and then 5'-phosphorylated. 5'-Phosphorylated total plasma RNA was ligated with adapters, reverse transcribed and eight personalized cDNA libraries were constructed. Libraries were sequenced with SOLiD(™) technology. Fragments of rRNA, mitochondrial transcripts, microRNAs, fragments of scRNAs, snRNA and snoRNA, fragments of several mRNAs as well as the set of newly discovered transcripts were found to be permanent representatives of human blood plasma RNAs. Advanced mapping allowed to identify circulating herpes virus and enterobacterial transcripts. Documented profile of circulating RNA of healthy individuals provides basis for development of new approaches in research and diagnosis of human pathology.
ISSN:1744-7682
DOI:10.1517/14712598.2012.679653