Project description:In Drosophila, siRNAs are classified as endo- or exo-siRNAs based on their origin. Both are processed from double-stranded RNA precursors by Dcr-2, then loaded into the Argonaute protein Ago2. While exo-siRNAs serve to defend the cell against viruses, endo-siRNAs restrict the spread of selfish DNA in somatic cells, analogous to piRNAs in the germ line. Endo- and exo-siRNAs display a differential requirement for double-stranded RNA binding domain proteins (dsRBPs): R2D2 is needed to load exo-siRNAs into Ago2 while the PD isoform of Loquacious (Loqs-PD) stimulates Dcr-2 during the nucleolytic processing of hairpin-derived endo-siRNAs. In cell culture assays, R2D2 antagonizes Loqs-PD in endo-siRNA silencing and Loqs-PD is an inhibitor of RNA interference. Loqs-PD can interact via the C-terminus unique to this isoform with the DExH/D-helicase domain of Drosophila Dcr-2, where binding of R2D2 has also been localized. Separation of the two pathways is not complete; rather, the dicing and Ago2-loading steps appear uncoupled, analogous to the corresponding steps in miRNA biogenesis. Analysis of deep sequencing data further demonstrates that in r2d2 mutant flies, siRNAs can be loaded into Ago2 but not all siRNA classes are equally proficient for this. Thus, the canonical Ago2-RISC loading complex can be bypassed under certain circumstances.

Project description:In Drosophila, siRNAs are classified as endo- or exo-siRNAs based on their origin. Both are processed from double-stranded RNA precursors by Dcr-2, then loaded into the Argonaute protein Ago2. While exo-siRNAs serve to defend the cell against viruses, endo-siRNAs restrict the spread of selfish DNA in somatic cells, analogous to piRNAs in the germ line. Endo- and exo-siRNAs display a differential requirement for double-stranded RNA binding domain proteins (dsRBPs): R2D2 is needed to load exo-siRNAs into Ago2 while the PD isoform of Loquacious (Loqs-PD) stimulates Dcr-2 during the nucleolytic processing of hairpin-derived endo-siRNAs. In cell culture assays, R2D2 antagonizes Loqs-PD in endo-siRNA silencing and Loqs-PD is an inhibitor of RNA interference. Loqs-PD can interact via the C-terminus unique to this isoform with the DExH/D-helicase domain of Drosophila Dcr-2, where binding of R2D2 has also been localized. Separation of the two pathways is not complete; rather, the dicing and Ago2-loading steps appear uncoupled, analogous to the corresponding steps in miRNA biogenesis. Analysis of deep sequencing data further demonstrates that in r2d2 mutant flies, siRNAs can be loaded into Ago2 but not all siRNA classes are equally proficient for this. Thus, the canonical Ago2-RISC loading complex can be bypassed under certain circumstances. Examination of small RNAs from two different mutant strains as well as the corresponding heterozygous controls

Project description:Transposable elements are a serious threat for genome integrity and their control via small RNA mediated silencing pathways is an ancient strategy. The fruit fly Drosophila melanogaster has two silencing mechanisms that repress TEs expression: endogenous siRNAs (esiRNAs or endo-siRNAs) and Piwi-interacting small RNAs (piRNAs). The biogenesis of endo-siRNAs involves Loqs-PD, which acts predominantly during processing of dsRNA by Dcr-2, and R2D2 that primarily helps to direct siRNAs for loading into Ago2. We provide deep sequencing evidence consistent with the idea that R2D2 and Loqs-PD can function in part redundantly. Certain transposons display a preference for either dsRBD-protein for production or loading; this appeared to correlate neither with overall abundance, classification of the transposon or a specific site of genomic origin. The endo-siRNA biogenesis pathway in the germline operates according to the same principles as the existing model for the soma, and its impairment does not significantly affect piRNAs. Expanding the analysis, we confirmed the occurrence of somatic piRNA-like RNAs (pilRNAs) that show a ping-pong signature. We detected expression of the Piwi-family protein mRNAs only barely above background, indicating that the somatic pilRNAs may arise from a small sub-population of somatic cells that express a functional piRNA pathway.

Project description:Transposable elements are a serious threat for genome integrity and their control via small RNA mediated silencing pathways is an ancient strategy. The fruit fly Drosophila melanogaster has two silencing mechanisms that repress TEs expression: endogenous siRNAs (esiRNAs or endo-siRNAs) and Piwi-interacting small RNAs (piRNAs). The biogenesis of endo-siRNAs involves Loqs-PD, which acts predominantly during processing of dsRNA by Dcr-2, and R2D2 that primarily helps to direct siRNAs for loading into Ago2. We provide deep sequencing evidence consistent with the idea that R2D2 and Loqs-PD can function in part redundantly. Certain transposons display a preference for either dsRBD-protein for production or loading; this appeared to correlate neither with overall abundance, classification of the transposon or a specific site of genomic origin. The endo-siRNA biogenesis pathway in the germline operates according to the same principles as the existing model for the soma, and its impairment does not significantly affect piRNAs. Expanding the analysis, we confirmed the occurrence of somatic piRNA-like RNAs (pilRNAs) that show a ping-pong signature. We detected expression of the Piwi-family protein mRNAs only barely above background, indicating that the somatic pilRNAs may arise from a small sub-population of somatic cells that express a functional piRNA pathway. small RNA sampling experiment; small RNAs were prepared from head & thorax as well as dissected ovaries of Adult female Drosophila melanogaster. We used homozygous mutants of the dsRBD proteins Loqs and r2d2 to determine their contribution to the biogenesis of transposon-derived small RNAs. Heterozygous mutant animals served as control. For each RNA sample, we performed one deep-sequencing run without any treatment, and in parallel one sequencing run after periodate oxidation and beta-elimination. After this treatment, only Ago2, Piwi, Aub and Ago3-loaded small RNAs remain as they carry a 2'-O-methyl modification at their 3'-end. This helps to determine the loading status of the small RNAs detected. In total 8 different RNA samples were prepared and 16 libraries were sequenced.

Project description:Drosophila Dicer-1 produces microRNAs (miRNAs) from pre-miRNA, whereas Dicer-2 generates small interfering RNAs (siRNAs) from long dsRNA. loquacious (loqs) encodes three Dicer partner proteins, Loqs-PA, Loqs-PB, and, Loqs-PD, generated by alternative splicing. To understand the function of each Loqs isoform, we constructed loqs isoform-specific rescue flies. Loqs-PD promotes siRNA production in vivo by Dicer-2. Loqs-PA or Loqs-PB is required for viability, but the proteins are not fully redundant: Loqs-PB is required to produce a specific subset of miRNAs. Surprisingly, Loqs-PB tunes the product size cleaved by Dicer-1 from pre-miR-307a, generating a longer miRNA isoform with a distinct seed sequence and target specificity. The mouse and human Dicer-binding partner TRBP, a homolog of Loqs-PB, similarly tunes the site of pre-miR-132 cleavage by mammalian Dicer. Thus, Dicer-binding partner proteins can change the choice of cleavage site by Dicer, producing miRNAs with different target specificities than those that would be made by Dicer alone.

Project description:Aedes aegypti mosquitoes vector several arboviruses of global health significance, including dengue viruses and chikungunya virus. RNA interference (RNAi) plays an important role in antiviral immunity, gene regulation and protection from transposable elements. Double-stranded RNA binding proteins (dsRBPs) are important for efficient RNAi; in Drosophila functional specialization of the miRNA, endo-siRNA and exo-siRNA pathway is aided by the dsRBPs Loqs-PB, Loqs-PD and R2D2, respectively. However, this functional specialization has not been investigated in other dipterans. Characterization of the gene structure, expression pattern and interactions with other RNAi/miRNA components revealed that mosquito Loqs/R3D1 isoform -PA, but not -PB interacted readily with both AeAGO1 and AeAGO2. This interaction was mapped to a 32 a.a. region predicted to be structurally similar to the unique 22 a.a. tail of Drosophila Loqs-PD. No -PD isoforms could be detected in Ae. aegypti; analysis of other dipteran genomes demonstrated that this isoform is not conserved outside of Drosophila. Overexpression experiments indicated that Loqs/R3D1-PA participates in endo-siRNA, but not exo-siRNA based silencing. We conclude that the functional specialization of Loqs-PD in Drosophila is a recently derived trait, and that in other dipterans, including the medically important mosquitoes, Loqs/R3D1-A participates in both the miRNA and endo-siRNA based pathways. 12 samples, 3 replicates of each type of sample. The GFP sample is the reference sample

Project description:Drosophila Dicer-1 produces microRNAs (miRNAs) from pre-miRNA, whereas Dicer-2 generates small interfering RNAs (siRNAs) from long dsRNA. loquacious (loqs) encodes three Dicer partner proteins, Loqs-PA, Loqs-PB, and, Loqs-PD, generated by alternative splicing. To understand the function of each Loqs isoform, we constructed loqs isoform-specific rescue flies. Loqs-PD promotes siRNA production in vivo by Dicer-2. Loqs-PA or Loqs-PB is required for viability, but the proteins are not fully redundant: Loqs-PB is required to produce a specific subset of miRNAs. Surprisingly, Loqs-PB tunes the product size cleaved by Dicer-1 from pre-miR-307a, generating a longer miRNA isoform with a distinct seed sequence and target specificity. The mouse and human Dicer-binding partner TRBP, a homolog of Loqs-PB, similarly tunes the site of pre-miR-132 cleavage by mammalian Dicer. Thus, Dicer-binding partner proteins can change the choice of cleavage site by Dicer, producing miRNAs with different target specificities than those that would be made by Dicer alone. Examination of Dicer-binding proteins on small RNA profiles of female fly heads, fly ovaries, mouse embryonic fibroblasts, and mouse tail fibroblasts.

Project description:Aedes aegypti mosquitoes vector several arboviruses of global health significance, including dengue viruses and chikungunya virus. RNA interference (RNAi) plays an important role in antiviral immunity, gene regulation and protection from transposable elements. Double-stranded RNA binding proteins (dsRBPs) are important for efficient RNAi; in Drosophila functional specialization of the miRNA, endo-siRNA and exo-siRNA pathway is aided by the dsRBPs Loqs-PB, Loqs-PD and R2D2, respectively. However, this functional specialization has not been investigated in other dipterans. Characterization of the gene structure, expression pattern and interactions with other RNAi/miRNA components revealed that mosquito Loqs/R3D1 isoform -PA, but not -PB interacted readily with both AeAGO1 and AeAGO2. This interaction was mapped to a 32 a.a. region predicted to be structurally similar to the unique 22 a.a. tail of Drosophila Loqs-PD. No -PD isoforms could be detected in Ae. aegypti; analysis of other dipteran genomes demonstrated that this isoform is not conserved outside of Drosophila. Overexpression experiments indicated that Loqs/R3D1-PA participates in endo-siRNA, but not exo-siRNA based silencing. We conclude that the functional specialization of Loqs-PD in Drosophila is a recently derived trait, and that in other dipterans, including the medically important mosquitoes, Loqs/R3D1-A participates in both the miRNA and endo-siRNA based pathways.

Project description:Drosophila melanogaster expresses three classes of small RNAs, which are classified according to their mechanisms of biogenesis. MicroRNAs are ~22-23-nt, ubiquitously expressed small RNAs that are sequentially processed from hairpin-like precursors by Drosha/Pasha and Dcr-1/Loquacious complexes. MicroRNAs usually associate with AGO1 and regulate the expression of protein-coding genes. Piwi-interacting RNAs (piRNAs) of ~24-28-nt associate with Piwi-family proteins and can arise from single-stranded precursors. piRNAs function in transposon silencing and are mainly restricted to gonadal tissues. Endo-siRNAs are found in both germline and somatic tissues. These ~21-nt RNAs are produced by a distinct Dicer, Dcr-2, and do not depend on Drosha/Pasha complexes. They predominantly bind to AGO2 and target both mobile elements and protein-coding genes. Surprisingly, a subset of endo-siRNAs strongly depend for their production on the dsRNA-binding protein Loquacious (Loqs), thought generally to be a partner for Dcr-1 and a co-factor for miRNA biogenesis. Endo-siRNA production depends on a specific Loqs isoform, Loqs-PD, which is distinct from the one, Loqs-PB, required for the production of microRNAs. Paralleling their roles in the biogenesis of distinct small RNA classes, Loqs-PD and Loqs-PB bind to different Dicer proteins, with Dcr-1/Loqs-PB complexes and Dcr-2/Loqs-PD complexes driving microRNA and endo-siRNA biogenesis, respectively. Small RNA profiling by high throughput sequencing Total RNA was isolated using Trizol reagent (Invitrogen) and size-fractionated by PAGE into 19-24nt. These were independently processed and sequenced using the Illumina GAII platform. In total, six libraries were analyzed.

Project description:Drosophila melanogaster expresses three classes of small RNAs, which are classified according to their mechanisms of biogenesis. MicroRNAs are ~22-23-nt, ubiquitously expressed small RNAs that are sequentially processed from hairpin-like precursors by Drosha/Pasha and Dcr-1/Loquacious complexes. MicroRNAs usually associate with AGO1 and regulate the expression of protein-coding genes. Piwi-interacting RNAs (piRNAs) of ~24-28-nt associate with Piwi-family proteins and can arise from single-stranded precursors. piRNAs function in transposon silencing and are mainly restricted to gonadal tissues. Endo-siRNAs are found in both germline and somatic tissues. These ~21-nt RNAs are produced by a distinct Dicer, Dcr-2, and do not depend on Drosha/Pasha complexes. They predominantly bind to AGO2 and target both mobile elements and protein-coding genes. Surprisingly, a subset of endo-siRNAs strongly depend for their production on the dsRNA-binding protein Loquacious (Loqs), thought generally to be a partner for Dcr-1 and a co-factor for miRNA biogenesis. Endo-siRNA production depends on a specific Loqs isoform, Loqs-PD, which is distinct from the one, Loqs-PB, required for the production of microRNAs. Paralleling their roles in the biogenesis of distinct small RNA classes, Loqs-PD and Loqs-PB bind to different Dicer proteins, with Dcr-1/Loqs-PB complexes and Dcr-2/Loqs-PD complexes driving microRNA and endo-siRNA biogenesis, respectively. Small RNA profiling by high throughput sequencing