Project description:Mammalian genomes are scattered with transposable elements (TEs). Silencing of TEs prevents harmful effects caused by either global activation leading to genome instability or insertional mutation disturbing gene transcription. However, whether the activation of a TE can be pathological without directly affecting gene expression is largely unknown. Here, we show that a TE insertion can adopt nearby regulatory activity, producing cell-type-specific viral-like particles (VLPs) in the embryo and affecting organ formation. Failure to silence an LTR retrotransposon inserted upstream of the Fgf8 gene results in their co-expression during development. VLPs assembly in the Fgf8-expressing cells of the developing limb triggers apoptotic cell death, resulting in a limb malformation resembling human ectrodactyly. We rescued this phenotype with mutations in the retrotransposon coding sequence, preventing its full endogenous retroviral cycle. Our findings illustrate how TE insertion is incorporated into the local genomic regulatory landscape and show that VLP production in post-implantation embryos can be pathological.

Project description:Mammalian genomes are scattered with transposable elements (TEs). Silencing of TEs prevents harmful effects caused by either global activation leading to genome instability or insertional mutation disturbing gene transcription. However, whether the activation of a TE can be pathological without directly affecting gene expression is largely unknown. Here, we show that a TE insertion can adopt nearby regulatory activity, producing cell-type-specific viral-like particles (VLPs) in the embryo and affecting organ formation. Failure to silence an LTR retrotransposon inserted upstream of the Fgf8 gene results in their co-expression during development. VLPs assembly in the Fgf8-expressing cells of the developing limb triggers apoptotic cell death, resulting in a limb malformation resembling human ectrodactyly. We rescued this phenotype with mutations in the retrotransposon coding sequence, preventing its full endogenous retroviral cycle. Our findings illustrate how TE insertion is incorporated into the local genomic regulatory landscape and show that VLP production in post-implantation embryos can be pathological.

Project description:Mammalian genomes are scattered with transposable elements (TEs). Silencing of TEs prevents harmful effects caused by either global activation leading to genome instability or insertional mutation disturbing gene transcription. However, whether the activation of a TE can be pathological without directly affecting gene expression is largely unknown. Here, we show that a TE insertion can adopt nearby regulatory activity, producing cell-type-specific viral-like particles (VLPs) in the embryo and affecting organ formation. Failure to silence an LTR retrotransposon inserted upstream of the Fgf8 gene results in their co-expression during development. VLPs assembly in the Fgf8-expressing cells of the developing limb triggers apoptotic cell death, resulting in a limb malformation resembling human ectrodactyly. We rescued this phenotype with mutations in the retrotransposon coding sequence, preventing its full endogenous retroviral cycle. Our findings illustrate how TE insertion is incorporated into the local genomic regulatory landscape and show that VLP production in post-implantation embryos can be pathological.

Project description:Mammalian genomes are scattered with transposable elements (TEs). Silencing of TEs prevents harmful effects caused by either global activation leading to genome instability or insertional mutation disturbing gene transcription. However, whether the activation of a TE can be pathological without directly affecting gene expression is largely unknown. Here, we show that a TE insertion can adopt nearby regulatory activity, producing cell-type-specific viral-like particles (VLPs) in the embryo and affecting organ formation. Failure to silence an LTR retrotransposon inserted upstream of the Fgf8 gene results in their co-expression during development. VLPs assembly in the Fgf8-expressing cells of the developing limb triggers apoptotic cell death, resulting in a limb malformation resembling human ectrodactyly. We rescued this phenotype with mutations in the retrotransposon coding sequence, preventing its full endogenous retroviral cycle. Our findings illustrate how TE insertion is incorporated into the local genomic regulatory landscape and show that VLP production in post-implantation embryos can be pathological.

Project description:Mammalian genomes are scattered with transposable elements (TEs). Silencing of TEs prevents harmful effects caused by either global activation leading to genome instability or insertional mutation disturbing gene transcription. However, whether the activation of a TE can be pathological without directly affecting gene expression is largely unknown. Here, we show that a TE insertion can adopt nearby regulatory activity, producing cell-type-specific viral-like particles (VLPs) in the embryo and affecting organ formation. Failure to silence an LTR retrotransposon inserted upstream of the Fgf8 gene results in their co-expression during development. VLPs assembly in the Fgf8-expressing cells of the developing limb triggers apoptotic cell death, resulting in a limb malformation resembling human ectrodactyly. We rescued this phenotype with mutations in the retrotransposon coding sequence, preventing its full endogenous retroviral cycle. Our findings illustrate how TE insertion is incorporated into the local genomic regulatory landscape and show that VLP production in post-implantation embryos can be pathological.

Project description:Transposable elements (TEs), whose propagation can result in severe damage to the host genome, are silenced in the animal gonad by Piwi-interacting RNAs (piRNAs). piRNAs produced in the ovaries are deposited in the embryonic germline and initiate TE repression in the germline progeny. Whether the maternally transmitted piRNAs play a role in the silencing of somatic TEs is, however, unknown. Here we show that maternally transmitted piRNAs from the tirant retrotransposon in Drosophila are required for the somatic silencing of the TE and correlate with an increase in histone H3K9 trimethylation an active tirant copy. Comparison of tirant piRNAs in two Drosophila simulans natural populations.

Project description:Transposable elements (TEs) are self-mobilizing elements that make up a large fraction of mammalian genomes. PIWI proteins and PIWI interacting RNAs (piRNAs) are a part of a system aimed at controlling and preventing TE proliferation. We examined the TE landscape and piRNA repertoires from three non-model Laurasiatherian mammals (dog, horse and big brown bat) with differing TE complements and proliferation patterns to address questions about the evolutionary relationships between piRNAs and TEs. We found that the genomic abundance of new TEs may not match TE transcription. We speculate that a higher rate of SINE targeting by piRNAs in the horse genome contributed to the reduced SINE insertion rate.

Project description:Transposable elements (TEs), whose propagation can result in severe damage to the host genome, are silenced in the animal gonad by Piwi-interacting RNAs (piRNAs). piRNAs produced in the ovaries are deposited in the embryonic germline and initiate TE repression in the germline progeny. Whether the maternally transmitted piRNAs play a role in the silencing of somatic TEs is, however, unknown. Here we show that maternally transmitted piRNAs from the tirant retrotransposon in Drosophila are required for the somatic silencing of the TE and correlate with an increase in histone H3K9 trimethylation an active tirant copy.

Project description:Transposable elements (TEs) and repetitive sequences comprise over 40% of rice genome. Different TEs are tightly regulated by distinct epigenetic mechanisms. For example, the activities of LTR retrotransposon Tos17 and non-LTR retrotransposon LINE element Karma are uniquely regulated by histone H3K9 methylation and histone H3K4 demethylation, respectively. Miniature inverted repeat transposable elements (MITEs) are one of the most high-copy-number DNA transposons, which are interspersed around rice genome and might influence nearby gene expression. In plants, 24-nucleotide (24-nt) heterochromatic small interfering RNAs (hc-siRNAs) derived from repeats and TEs. To what extent hc-siRNA associated TEs affect gene expression and therefore contribute to agricultural traits in rice remains elusive. Here, we show that OsDCL3a, one of Dicer-Like 3 (DCL3) homolog, is primarily responsible for 24-nt hc-siRNA processing in rice. Impaired OsDCL3a displayed altered important agricultural traits in rice. We found that genome-wide (281,563) 24-nt hc-siRNA clusters were OsDCL3a-dependent, among which MITEs were significantly enriched. Impaired OsDCL3a caused significant overlapping between reduced hc-siRNAs from MITEs and elevated nearby gene expression. Intriguingly, genes involved in Gibberellin and Brassinosteroid homeostasis were identified as direct targets of OsDCL3a, which may attribute to dwarfism and enlarged flag leaf angle upon OsDCL3a deficiency. Our work uncovers OsDCL3a-dependent hc-siRNAs derived from MITEs as broad spectrum of regulators for fine-tuning gene expression, and this observation may reflect a conserved mechanism in other higher plants with dispersed repeat- or TE-rich genomes. Examination of OsDCL3a-dependent hc-siRNAs derived from MITEs.

Project description:East African cichlid fishes have radiated in an explosive fashion. The (epi)genetic basis for the abundant phenotypic diversity of these fishes remains largely unknown. As transposable elements (TEs) contribute extensively to genome evolution, we reasoned that TEs may have fuelled cichlid radiations. While TE-derived genetic and epigenetic variability has been associated with phenotypic traits, TE expression and epigenetic silencing remain unexplored in cichlids. Here, we profiled TE expression in African cichlids, and describe dynamic expression patterns during embryogenesis and according to sex. Most TE silencing factors are conserved and expressed in cichlids. We describe an expansion of two truncated Piwil1 genes in Lake Malawi/Nyasa cichlids, encoding a Piwi domain with catalytic potential. To further dissect epigenetic silencing of TEs, we focused on small RNA-driven epigenetic silencing. We detect a small RNA population in gonads consistent with an active Piwi-interacting RNA (piRNA) pathway targeting TEs. We uncover fluid genomic origins of piRNAs in closely related cichlid species. This, along with signatures of positive selection in piRNA pathway factors, points towards fast co-evolution of TEs and the piRNA pathway. Our study is the first step to understand the contribution of ongoing TE-host arms races to the cichlid radiations in Africa.