Abstract
We carried out the first analysis of alternative splicing complexity in human tissues using mRNA-Seq data. New splice junctions were detected in ∼20% of multiexon genes, many of which are tissue specific. By combining mRNA-Seq and EST-cDNA sequence data, we estimate that transcripts from ∼95% of multiexon genes undergo alternative splicing and that there are ∼100,000 intermediate- to high-abundance alternative splicing events in major human tissues. From a comparison with quantitative alternative splicing microarray profiling data, we also show that mRNA-Seq data provide reliable measurements for exon inclusion levels.
This is a preview of subscription content, access via your institution
Access options
Subscribe to this journal
Receive 12 print issues and online access
$209.00 per year
only $17.42 per issue
Buy this article
- Purchase on Springer Link
- Instant access to full article PDF
Prices may be subject to local taxes which are calculated during checkout
Similar content being viewed by others
Change history
28 April 2009
Addendum: The GEO accession number for the mRNA-Seq datasets is GSE13652.
References
Matlin, A.J., Clark, F. & Smith, C.W. Nat. Rev. Mol. Cell Biol. 6, 386–398 (2005).
Blencowe, B.J. Cell 126, 37–47 (2006).
Ben-Dov, C., Hartmann, B., Lundgren, J. & Valcarcel, J. J. Biol. Chem. 283, 1229–1233 (2008).
Johnson, J.M. et al. Science 302, 2141–2144 (2003).
Sorek, R., Dror, G. & Shamir, R. BMC Genomics 7, 273 (2006).
Calarco, J.A. et al. Adv. Exp. Med. Biol. 623, 64–84 (2007).
Bainbridge, M.N. et al. BMC Genomics 7, 246 (2006).
Mortazavi, A., Williams, B.A., McCue, K., Schaeffer, L. & Wold, B. Nat. Methods 5, 621–628 (2008).
Cloonan, N. et al. Nat. Methods 5, 613–619 (2008).
Sultan, M. et al. Science 321, 956–960 (2008).
Su, A.I. et al. Proc. Natl. Acad. Sci. USA 101, 6062–6067 (2004).
Zhang, W. et al. J. Biol. 3, 21 (2004).
Yeo, G., Holste, D., Kreiman, G. & Burge, C.B. Genome Biol. 5, R74 (2004).
Schiaffino, S. & Reggiani, C. Physiol. Rev. 76, 371–423 (1996).
Pan, Q. et al. Mol. Cell 16, 929–941 (2004).
Acknowledgements
We thank S. Luo, I. Khrebtukova and G. Schroth of Illumina Inc. for providing some of the mRNA-Seq datasets used in this analysis. We also thank M. Brudno, Y. Barash, J. Calarco and S. Ahmad for helpful suggestions and comments on the manuscript. B.J.B and B.J.F. acknowledge support from the Canadian Institutes of Health Research and from Genome Canada through the Ontario Genomics Institute.
Author information
Authors and Affiliations
Contributions
Q.P. created the exon and splice junction libraries and performed analyses of the mRNA-Seq, cDNA-EST and microarray data. O.S., L.J.L. and B.J.F. designed and implemented the logistic regression classifier and contributed to the analyses of tissue-specific alternative splicing events. The study was coordinated by B.J.B. The manuscript was prepared by B.J.B. and Q.P., with the participation of O.S., L.J.L. and B.J.F.
Corresponding author
Supplementary information
Supplementary Text and Figures
Supplementary Methods, Supplementary Table 1 and Supplementary Figures 1 and 2 (PDF 329 kb)
Rights and permissions
About this article
Cite this article
Pan, Q., Shai, O., Lee, L. et al. Deep surveying of alternative splicing complexity in the human transcriptome by high-throughput sequencing. Nat Genet 40, 1413–1415 (2008). https://doi.org/10.1038/ng.259
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1038/ng.259
This article is cited by
-
Translational enhancement of target endogenous mRNA in mammalian cells using programmable RNA-binding pentatricopeptide repeat proteins
Scientific Reports (2024)
-
Revisiting the development of cerebellar inhibitory interneurons in the light of single-cell genetic analyses
Histochemistry and Cell Biology (2024)
-
Alternative Splicing Reveals Acute Stress Response of Litopenaeus vannamei at High Alkalinity
Marine Biotechnology (2024)
-
Next-Generation Sequencing in Medicinal Plants: Recent Progress, Opportunities, and Challenges
Journal of Plant Growth Regulation (2024)
-
Estimating transcriptome complexities across eukaryotes
BMC Genomics (2023)