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  • Title: Identification and characterisation of a novel antisense non-coding RNA from the RBM5 gene locus.
    Author: Rintala-Maki ND, Sutherland LC.
    Journal: Gene; 2009 Sep 15; 445(1-2):7-16. PubMed ID: 19559772.
    Abstract:
    Previous work from our lab identified a 326 base-pair (bp) cDNA, termed Je2, which mapped to the antisense strand of intron 6 of the putative tumour suppressor gene RBM5/LUCA-15/H37, and functioned as an apoptosis suppressor. The purpose of the work described herein was to determine if Je2 is part of a larger transcript, to clone that transcript and to examine its ability to modulate RBM5 expression. Northern blot analyses in conjunction with strand-specific reverse transcription and PCR revealed two novel transcripts, one antisense and one sense, that included Je2 as well as RBM5 intron 4 sequence. Using rapid amplification of cDNA ends (RACE), a novel 1.4 kb product including Je2 and intron 4 was cloned. In vitro transcription/translation did not result in the production of any protein product, from either strand. Genomic DNA analysis revealed the presence of a putative promoter region 5' to Je2, suggesting that the cloned 1.4 kb RACE product represents an antisense transcript that initiates within intron 6 and terminates within intron 4 of the RBM5 gene. This novel antisense, non-coding RNA was termed LUST, for LUCA-15-specific transcript. Ectopic overexpression of LUST coincided with elevated expression of the full-length RBM5+5+6 alternative RBM5 RNA splice variant, and reduced expression of the truncated, cytotoxic RBM5+5+6t/Clone 26 alternative RBM5 RNA splice variant. A model is proposed whereby LUST functions co-transcriptionally to mask a sense-strand regulatory sequence, common to both RBM5+5+6 and RBM5+5+6t/Clone 26 transcripts, that when unmasked results in premature termination of RBM5+5+6, thereby generating the cytotoxic truncated product, RBM5+5+6t/Clone 26. These results suggest that LUST is a novel, functional, non-coding RNA that plays a role in determining the apoptotic fate of a cell by regulating the expression of RBM5 splice variants.
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