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  • laujhawj laujhawj Sep 24, 2009 11:05 AM Flag

    On Nature Publications

    NATURE is one of the world's premier, peer reviewed SCIENTIFIC publications. Only the most insightful, well documented, and scientfically relevant research into the depths of a certain discipline is published.

    When your research are published in NATURE and other premier scientific journals like it, you can be sure you are among the "cream of the crop" when it comes to whatever you're doing in science and in the understanding of nature...

    HELICOS is on its way to become one of the leaders in the field of NEXT GENERATION GENOMIC SEQUENCING.

    There is NO QUESTION, no doubt, about it...



    Nature advance online publication 23 September 2009

    Received 18 May 2009; Accepted 5 August 2009; Published online 23 September 2009

    The Seeker is looking for a method of specifically binding DNA. As an Ideation Challenge, only a hig...

    RNA sequencing

    Fatih Ozsolak1, Adam R. Platt1, Dan R. Jones1, Jeffrey G. Reifenberger1, Lauryn E. Sass1, Peter McInerney1, John F. Thompson1, Jayson Bowers1, Mirna Jarosz1 & Patrice M. Milos1

    1.Helicos BioSciences Corporation, One Kendall Square, Cambridge, Massachusetts 02139, USA
    Correspondence to: Fatih Ozsolak1Patrice M. Milos1 Correspondence and requests for materials should be addressed to F.O.

    (Email: or P.M.M. (Email:

    Top of pageAbstractOur understanding of human biology and disease is ultimately dependent on a complete understanding of the genome and its functions.

    The recent application of microarray and sequencing technologies to transcriptomics has changed the simplistic view of transcriptomes to a more complicated view of genome-wide transcription where a large fraction of transcripts emanates from unannotated parts of genomes1, 2, 3, 4, 5, 6, 7, and underlined our limited knowledge of the dynamic state of transcription.

    Most of this broad body of knowledge was obtained indirectly because current transcriptome analysis methods typically require RNA to be converted to complementary DNA (cDNA) before measurements, even though the cDNA synthesis step introduces multiple biases and artefacts that interfere with both the proper characterization and quantification of transcripts8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18.

    Furthermore, cDNA synthesis is not particularly suitable for the analysis of short, degraded and/or small quantity RNA samples. Here we report direct single molecule RNA sequencing without prior conversion of RNA to cDNA.

    We applied this technology to sequence femtomole quantities of poly(A)+ Saccharomyces cerevisiae RNA using a surface coated with poly(dT) oligonucleotides to capture the RNAs at their natural poly(A) tails and initiate sequencing by synthesis.

    We observed transcript 3' end heterogeneity and polyadenylated small nucleolar RNAs. This study provides a path to high-throughput and low-cost direct RNA sequencing and achieving the ultimate goal of a comprehensive and bias-free understanding of transcriptomes.

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