AI Article Synopsis
- A large part of the eukaryotic small non-coding RNA (ncRNA) transcriptome consists of small nucleolar RNAs (snoRNAs), which help modify target RNAs in organisms ranging from archaea to mammals.
- Using a bioinformatics program, researchers identified potential Drosophila counterparts of a specific snoRNA (U79) from the human GAS5 ncRNA, revealing a list of fly snoRNAs with interesting genomic and expression characteristics.
- One notable find, Dm46E3, is transcribed from a gene involved in vital cellular processes and shows increased expression in a mutant strain, indicating a possible regulatory relationship with the eiger gene; it also localizes to Cajal bodies and may influence splicing in
Article Abstract
A significant portion of eukaryotic small ncRNA transcriptome is composed by small nucleolar RNAs. From archaeal to mammalian cells, these molecules act as guides in the site-specific pseudouridylation or methylation of target RNAs. We used a bioinformatics search program to detect Drosophila putative orthologues of U79, one out of ten snoRNAs produced by GAS5, a human ncRNA involved in apoptosis, susceptibility to cancer and autoimmune diseases. This search led to the definition of a list of U79-related fly snoRNAs whose genomic organization, evolution and expression strategy are discussed here. We report that an intriguing novel specimen, named Dm46E3, is transcribed as a longer, unspliced precursor from the reverse strand of eiger, a fly regulatory gene that plays a key role in cell differentiation, apoptosis and immune response. Expression of Dm46E3 was found significantly up-regulated in a mutant strain in which eiger transcription is greatly reduced, suggesting that these two sense-antisense genes may be mutually regulated. Relevant to its function, Dm46E3 concentrated specifically in the Cajal bodies, followed a dynamic spatial expression profile during embryogenesis and displayed a degenerate antisense element that enables it to target U1b, a developmentally regulated isoform of the U1 spliceosomal snRNA that is particularly abundant in embryos.
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| http://dx.doi.org/10.1016/j.gene.2009.02.005 | DOI Listing |
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