Project description:The double-stranded RNA-binding protein Staufen has been implicated in various posttranscriptional gene regulatory processes. Here, we demonstrate that the Caenorhabditis elegans homolog of Staufen, STAU-1, functionally interacts with microRNAs. Loss-of-function mutations of stau-1 significantly suppress phenotypes of let-7 family microRNA mutants, a hypomorphic allele of dicer and a lsy-6 microRNA partial loss-of-function mutant. Furthermore, STAU-1 modulates the activity of lin-14, a target of lin-4 and let-7 family microRNAs, and this modulation is abolished when the 3' untranslated region of lin-14 is removed. Deep sequencing of small RNA cDNA libraries reveals no dramatic change in the levels of microRNAs, or other small RNA populations between wild-type and stau-1 mutants, with the exception of certain endogenous siRNAs in the WAGO pathway. The modulation of microRNA activity by STAU-1 does not seem to be associated with the previously reported enhanced exogenous RNAi (Eri) phenotype of stau-1 mutants, since eri-1 exhibits the opposite effect on microRNA activity. Altogether, our results suggest that STAU-1 negatively modulates microRNA activity downstream of biogenesis, possibly by competing with microRNAs for binding on the 3' untranslated region of target mRNAs Deep-sequencing was performed on cDNA libraries made from total RNA from young adults populations of two strains: wild-type (N2) and stau-1(tm2266), in three biological replicates each strain.

Project description:Staufen Negatively Modulates MicroRNA Activity in Caenorhabditis elegans

Project description:Staufen-associated mRNAs were identified in early Drosophila embryos by RNA-co-immunoprecipitation followed by microarray analysis (RIP-Chip), using two complementary approaches: RIP-Chip from wild-type embryos using a synthetic anti-Staufen antibody, and RIP-Chip from transgenic GFP-Staufen-expressing embryos using an anti-GFP antibody. Genome-wide transcript expression in whole embryos was also assessed for the wild-type and GFP-Staufen lines.

Project description:Staufen-associated mRNAs were identified in early Drosophila embryos by RNA-co-immunoprecipitation followed by microarray analysis (RIP-Chip), using two complementary approaches: RIP-Chip from wild-type embryos using a synthetic anti-Staufen antibody, and RIP-Chip from transgenic GFP-Staufen-expressing embryos using an anti-GFP antibody. Genome-wide transcript expression in whole embryos was also assessed for the wild-type and GFP-Staufen lines. There are 18 samples in total. These include 3 replicates each of 1) gene expression profiling from total mRNA isolated from wild-type 0-3 hour embryos, 2) synthetic anti-Staufen antibody RNA co-immunoprecipitations of endogenous Staufen from wild-type 0-3 hour embryos, 3) control synthetic antibody RNA co-immunoprecipitations from wild-type 0-3 hour embryos, 4) gene expression profiling from total mRNA isolated from transgenic GFP-Staufen expressing 0-3 hour embryos, 5) anti-GFP RNA co-immunoprecipitations of GFP-Staufen from transgenic GFP-Staufen expressing 0-3 hour embryos, 6) anti-FLAG control RNA co-immunoprecipitations from transgenic GFP-Staufen expressing 0-3 hour embryos.

Project description:Identifying orthologous mRNAs subject to SMD in both mouse and human myoblasts using siRNA depletion of Staufen or Upf1

Project description:Our research revealed that the transmembrane transcription factors MYRF-1 and MYRF-2 are crucial for activating the microRNA lin-4 at the end of the first larval stage in C. elegans. To determine whether MYRF regulates other microRNA genes during this period, we conducted a microRNA sequencing analysis to compare microRNA expression in late L1 larvae of wild type and myrf-1(ju1121) mutants. The myrf-1(ju1121) mutation causes a loss of function in both MYRF-1 and MYRF-2. Our analysis identified a subset of microRNAs that were differentially expressed between the wild type and the myrf-1(ju1121) mutants.

Project description:To characterize the role of the ERI-6/7 helicase in endogenous small RNA pathways in C. elegans, small RNA populations from null alleles of eri-6 and eri-7, and from mutants of known endogenous RNAi pathway factors, eri-1 and ergo-1, were determined by deep sequencing, and compared to wild type.

Project description:To characterize the role of the ERI-6/7 helicase in endogenous small RNA pathways in C. elegans, small RNA populations from null alleles of eri-6 and eri-7, and from mutants of known endogenous RNAi pathway factors, eri-1 and ergo-1, were determined by deep sequencing, and compared to wild type. Small RNA analysis in wild type and eri-1, ergo-1, eri-6 and eri-7 mutant C. elegans strains.

Project description:To examine the roles of the ADAR genes and the ERI-6/7 helicase in endogenous RNAi pathways, we sequenced small RNA of adr-1; adr-2; eri-6 mutants. We also analyzed the transcriptomes of these mutants using total RNAseq and mRNAseq. mRNAseq was done in mutants depleted for the RNAi factors drh-1 and nrde-3, or control RNAi

Project description:Using a high throughput human microRNA library screen, we identified microRNAs targeting the 3’untranslated region of human PCSK9