Paramutation phenomena in non-vertebrate animals

Seminars in Cell & Developmental Biology
Stéphane Ronsseray

Abstract

Paramutation was initially described in maize and was defined as an epigenetic interaction between two alleles of a locus, through which one allele induces a heritable modification of the other allele without modifying the DNA sequence [1,2]. Thus it implies that the paramutated allele conserves its new properties on the long term over generations even in the absence of the paramutagenic allele and that it turns paramutagenic itself, without undergoing any changes in the DNA sequence. Some epigenetic interactions have been described in two non-vertebrate animal models, which appear to exhibit similar properties. Both systems are linked to trans-generational transmission of non-coding small RNAs. In Drosophila melanogaster, paramutation is correlated with transmission of PIWI-Interacting RNAs (piRNAs), a class of small non-coding RNAs that repress mobile DNA in the germline. A tandem repeated transgenic locus producing abundant ovarian piRNAs can activate piRNA production and associated homology-dependent silencing at a locus that was previously stably devoid of such capacities. The newly converted locus is then perfectly stable in absence of the inducer locus (>100 generations) and becomes fully paramutagenic. In Caenorhabditis...Continue Reading

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Citations

Dec 15, 2015·Scientific Reports·Valérie GrandjeanMinoo Rassoulzadegan
Mar 30, 2017·PloS One·Maria CapovillaMinoo Rassoulzadegan
Aug 2, 2017·Journal of Genetics·Johannes Manjrekar

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