Biomedical Engineering Reference
In-Depth Information
[2] Wang ET, et al., 'Alternative Isoform Regulation in Human Tissue
Transcriptomes,'
Nature
Nature
;456(7221)470-6.
[3] Blekhman R, Marioni JC, Zumbo P, Stephens M, and Gilad Y. 'Sex-specifi c
and lineage-specifi c alternative splicing in primates,'
Genome Research
2010;20(2):180-9.
[4] Wilhelm BT, et al. 'RNA-seq analysis of 2 closely related leukemia clones
that differ in their self-renewal capacity,'
Blood
2011;117(2):e27-38.
[5] Berger MF et al. 'Integrative analysis of the melanoma transcriptome,'
Genome Research
2010;20(4):413-27.
[6] Maher CA, et al. 'Transcriptome Sequencing to Detect Gene Fusions in
Cancer,'
Nature
2009;458(7234): 97-101.
[7] Mortazavi A, et al. 'Scaffolding a Caenorhabditis nematode genome with
RNA-seq,'
Genome Research
2010;20(12):1740-7.
[8] Denoeud F, et al. 'Annotating genomes with massive-scale RNA sequencing,'
Genome Biology
2008;9(12):R175.
[9] Yassour M, et al. 'Ab initio construction of a eukaryotic transcriptome by
massively parallel mRNA sequencing,'
Proceedings of the National
Academy of Sciences of the United States of America
2009;106(9):3264-9.
[10] Guttman M, et al. 'Ab initio reconstruction of cell type-specifi c
transcriptomes in mouse reveals the conserved multi-exonic structure of
lincRNAs,'
Nature Biotechnology
2010;28(5):503-10.
[11] Trapnell C, et al. 'Transcript assembly and quantifi cation by RNA-Seq
reveals unannotated transcripts and isoform switching during cell
differentiation,'
Nature Biotechnology
2010;28(5):511-15.
[12] Pepke S, Wold B, and Mortazavi A. 'Computation for ChIP-seq and RNA-
seq studies,'
Nature Methods
2009;6(11):S22-32.
[13] Garber M, Grabherr MG, Guttman M and Trapnell C. 'Computational
methods for transcriptome annotation and quantifi cation using RNA-seq,'
Nature Methods
2011;8(6):469-77.
[14] Gentleman RC, et al. 'Bioconductor: open software development for
computational biology and bioinformatics, '
Genome Biology
2004;5(10):R80.
[15] Goecks J, Nekrutenko A and Taylor J. 'Galaxy: a comprehensive approach
for supporting accessible, reproducible, and transparent computational
research in the life sciences,'
Genome Biology
2010;11(8):R86.
[16] McLean CY, et al. 'GREAT improves functional interpretation of cis-
regulatory regions,'
Nature Biotechnology
2010;28(5):495-501.
[17] Kent WJ, et al. 'The human genome browser at UCSC,'
Genome Research
2002;12(6):996-1006.
[18] Nicol JW, Helt GA, Blanchard Jr SG, Raja A and Loraine AE. 'The Integrated
Genome Browser: free software for distribution and exploration of genome-
scale datasets,'
Bioinformatics (Oxford, England)
2009;25(20):2730-1.
[19] Quinlan AR and Hall IM. 'BEDTools: a fl exible suite of utilities for
comparing genomic features,' Bioinformatics 2010;26(6):841-2.
[20] Tsirigos A, Haiminen N, Bilal E and Utro F. 'GenomicTools: a computational
platform for developing high-throughput analytics in genomics,'
Bioinformatics (Oxford, England)
November 2011.
[21] Tsirigos A and Rigoutsos I. 'Human and mouse introns are linked to
the same processes and functions through each genome's most
Search WWH ::
Custom Search