Abstract
Members of the Ty3-Gypsy retrotransposon family are rare in mammalian genomes despite their abundance in invertebrates and some vertebrates. These elements contain a gag-pol-like structure characteristic of retroviruses but have lost their ability to retrotranspose into the mammalian genome and are thought to be inactive relics of ancient retrotransposition events. One of these retrotransposon-like elements, PEG11 (also called RTL1) is located at the distal end of ovine chromosome 18 within an imprinted gene cluster that is highly conserved in placental mammals. The region contains several conserved imprinted genes including BEGAIN, DLK1, DAT, GTL2 (MEG3), PEG11 (RTL1), PEG11as, MEG8, MIRG and DIO3. An intergenic point mutation between DLK1 and GTL2 causes muscle hypertrophy in callipyge sheep and is associated with large changes in expression of the genes linked in cis between DLK1 and MEG8. It has been suggested that over-expression of DLK1 is the effector of the callipyge phenotype; however, PEG11 gene expression is also strongly correlated with the emergence of the muscling phenotype as a function of genotype, muscle type and developmental stage. To date, there has been no direct evidence that PEG11 encodes a protein, especially as its anti-sense transcript (PEG11as) contains six miRNA that cause cleavage of the PEG11 transcript. Using immunological and mass spectrometry approaches we have directly identified the full-length PEG11 protein from postnatal nuclear preparations of callipyge skeletal muscle and conclude that its over-expression may be involved in inducing muscle hypertrophy. The developmental expression pattern of the PEG11 gene is consistent with the callipyge mutation causing recapitulation of the normal fetal-like gene expression program during postnatal development. Analysis of the PEG11 sequence indicates strong conservation of the regions encoding the antisense microRNA and in at least two cases these correspond with structural or functional domains of the protein suggesting co-evolution of the sense and antisense genes.
Highlights
More than 45% of the mammalian genome is composed of repetitive elements, representing DNA transposons, long terminal repeat (LTR) retrotransposons, LINEs (Long Interspersed Nuclear Elements) and SINEs (Short Interspersed Nuclear Elements) [1]
Gene expression analysis was used to measure the expression of paternally expressed gene 11 (PEG11) in semimembranosus (SM) skeletal muscle from 12 week-old animals (i.e. 230 days post-conception; birth was at day 147)
Developmental profiles for the expression of PEG11 in longissimus dorsi (LD) skeletal muscle samples from fetal, newborn and adult sheep for the genotypes NCpat and NN are shown in Identification of PEG11 protein in callipyge semimembranosus skeletal muscle For the identification of the PEG11 protein, samples of SM
Summary
More than 45% of the mammalian genome is composed of repetitive elements, representing DNA transposons, long terminal repeat (LTR) retrotransposons, LINEs (Long Interspersed Nuclear Elements) and SINEs (Short Interspersed Nuclear Elements) [1]. Many of these are genetic relics of ancient transposition events and are generally thought to be inactive due to accumulated mutations and silencing by epigenetic genome ‘defense’ mechanisms, DNA methylation [2]. A small family of nine mammalian genes with homology to the Ty3-Gypsy long terminal repeat retrotransposon Sushi-ichi from fugu has been identified [7,8,9] These elements contain the gag-pol-like structure common to retroviruses, but have lost their long terminal repeats and presumably the ability to autonomously retrotranspose into the genome. The conservation of PEG11 in placental mammals and its absence from syntenic chromosomal regions of nonplacental mammals suggests that during evolution the newly retrotransposed gene was co-opted for distinct functional roles within the placental mammals [7,10]
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