2009
DOI: 10.1093/bib/bbp041
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Detection of human interchromosomal trans-splicing in sequence databanks

Abstract: Trans-splicing is a common phenomenon in nematodes and kinetoplastids, and it has also been reported in other organisms, including humans. Up to now, all in silico strategies to find evidence of trans-splicing in humans have required that the candidate sequences follow the consensus splicing site rules (spliceosome-mediated mechanism). However, this criterion is not supported by the best human experimental evidence, which, except in a single case, do not follow canonical splicing sites. Moreover, recent findin… Show more

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Cited by 36 publications
(36 citation statements)
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“…Trans-splicing is a common phenomenon in trypanosomes, nematodes, Drosophila and even humans, and refers to the novel and unusual splicing of exons from independent pre-mRNAs (62,63). The phenomenon has been explored as a therapeutic option for a variety of genetic diseases, particularly in the treatment of cancer (64).…”
Section: Trans-splicingmentioning
confidence: 99%
“…Trans-splicing is a common phenomenon in trypanosomes, nematodes, Drosophila and even humans, and refers to the novel and unusual splicing of exons from independent pre-mRNAs (62,63). The phenomenon has been explored as a therapeutic option for a variety of genetic diseases, particularly in the treatment of cancer (64).…”
Section: Trans-splicingmentioning
confidence: 99%
“…Generally, trans-splicing is detected by comparing the reference genomes with ESTs/mRNAs (Shao et al 2006;Li et al 2009;Herai and Yamagishi 2010;Kim et al 2010) or by next-generation sequencing (NGS) of mRNAs (RNA-seq) (McManus et al 2010;Zhang et al 2010;Al-Balool et al 2011;Fang et al 2012). Transsplicing events detected by such means may, however, include a considerable number of false positives that arise from experimental artifacts, such as template switching (McManus et al 2010;Ozsolak and Milos 2011).…”
Section: Taipei 11529 Taiwanmentioning
confidence: 99%
“…Chimeric mRNAs are distinct from conventionally spliced mRNA isoforms as they are produced by joining exons from two or more different gene loci (Pirrotta 2002;Horiuchi and Aigaki 2006;Robertson et al 2007;Li et al 2008;Gingeras 2009;Douris et al 2010;Herai and Yamagishi 2010;McManus et al 2010a,b;Pettitt et al 2010;Allen et al 2011). In humans, chimeric transcripts are generated in several ways: trans-splicing of pre-mRNAs (Gingeras 2009;Li et al 2009c), RNA transcription runoff (Akiva et al 2006;Parra et al 2006), from other errors in RNA transcription processing (Gingeras 2009), or represent artifacts of RNA sequencing.…”
Section: [Supplemental Materials Is Available For This Article]mentioning
confidence: 99%
“…In humans, chimeric transcripts are generated in several ways: trans-splicing of pre-mRNAs (Gingeras 2009;Li et al 2009c), RNA transcription runoff (Akiva et al 2006;Parra et al 2006), from other errors in RNA transcription processing (Gingeras 2009), or represent artifacts of RNA sequencing. Alternatively, chimeric transcripts can be the products of gene fusion following inter-chromosomal translocations or intra-chromosomal rearrangements (Gingeras 2009;Maher et al 2009b;Herai and Yamagishi 2010). Specific cellular phenotypes are characterized by expression of chimeric transcripts, for example, the fused BCR/ABL, FUS/ERG, MLL/AF6, and MOZ/CBP genes are expressed in acute myeloid leukemia (AML) (Panagopoulos et al 2003;Nambiar et al 2008), and the TMPRSS2/ETS chimera is associated with overexpression of the oncogene in prostate cancer (Nambiar et al 2008).…”
Section: [Supplemental Materials Is Available For This Article]mentioning
confidence: 99%