alexa A candidate chimeric mammalian mRNA transcript is derived from distinct chromosomes and is associated with nonconsensus splice junction motifs.
Biomedical Sciences

Biomedical Sciences

Journal of Biomolecular Research & Therapeutics

Author(s): Zhang C, Xie Y, Martignetti JA, Yeo TT, Massa SM,

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Abstract The process of creating chimeric mRNA transcripts derived from separately transcribed genes via known spliceosome mechanisms is termed trans-splicing, and has been primarily described in lower eukaryotes. Isolation of cDNA clones containing sequences from distinct genes has raised the possibility of trans-splicing across distinct genes in mammalian systems; however, the possibility of cloning artifacts or splicing via nonspliceosome mechanisms has been difficult to rule out. In most cases, the absence of corresponding genomic clones has limited assessment of splice donor and acceptance sites and associated intronic elements that would be expected to participate in spliceosome-based reactions. We have previously reported a cDNA clone encoding the rat Leukocyte Common Antigen-Related (LAR) tyrosine phosphatase receptor that contains an alternative 3' UTR. In the present study Northern, RT-PCR and RNase protection assays verified the existence of developmentally regulated 3' UTR alternative splicing of LAR transcripts in vivo. FISH and radiation hybrid mapping demonstrated that loci encoding LAR and its alternative 3' UTR are present on distinct chromosomes, raising the possibility that alternatively spliced transcripts resulted from trans-splicing. Exon/intron analysis of corresponding genomic clones revealed nonconsensus splice junctions along with elements known to promote both cis- and trans-splicing. Verification in a mammalian in vivo system of chimeric transcripts derived from distinct genes along with identification of atypical nonconsensus-associated genomic elements points to the novel possibilities of atypical spliceosome-based trans-splicing or nonconventional, nonspliceosome-based mechanisms leading to chimeric transcripts. This article was published in DNA Cell Biol and referenced in Journal of Biomolecular Research & Therapeutics

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