Project description:The RNA-binding protein Trim71/Lin41 is a phylogenetically conserved developmental regulator that functions in mammalian stem cell reprogramming, brain development and cancer. Trim71 recognizes target mRNAs through hairpin motifs and silences them through molecular mechanisms that await identification. Deposited data are mass spectrometry data from immunoprecipitation experiments with endogenously tagged Trim71, Ago2, and Tnrc6a. Experiments are carried out in mouse embryonic stem cells (mESCs) and uncover reciprocal interactions of Trim71, Ago2, and Tnrc6a. Trim71 protein interactions are largely independent of Ago2 levels, but strongly depend on the presence of RNA. A second set of experiments is mass spectrometry data from immunoprecipitation experiments in mESCs overexpressing a tagged peptide derived from Homo sapiens TNRC6B (‘FLAG-HA::T6BWT::Cherry’), that is known to block the Tnrc6-Ago2 interaction. We show that a wild-type version strongly binds Ago1 and Ago2, but not Trim71, while a mutant version binds neither Ago1, 2, nor Trim71.

Project description:The RNA-binding protein Trim71/Lin41 is a phylogenetically conserved developmental regulator that functions in mammalian stem cell reprogramming, brain development and cancer. Trim71 recognizes target mRNAs through hairpin motifs and silences them through molecular mechanisms that await identification. Deposited data are mass spectrometry data from immunoprecipitation experiments with endogenously tagged Tnrc6a. Experiments are carried out in mouse embryonic stem cells (mESCs) in the presence and absence of RNase A.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:RNA-sequencing in mouse embryonic stem cells: Ctrl: GFP_5xT71BS (mES [129S6/SvEvTac], yGlob [GFP_5xT71BS]. Trim71-/-: GFP_5xT71BS (mES [129S6/SvEvTac], yGlob [GFP_5xT71BS] Trim71 -/-. Note pervasive gene expression changes in samples with TNRC6A overexpression in comparison with samples with CAS9 overexpression.

Project description:RNA-sequencing in mouse embryonic stem cells. Experiment 1 (Samples 1-9): Base cell line (WT): GFP_5xT71BS (mES [129S6/SvEvTac], yGlob [GFP_5xT71BS], stable transfection FLAG-Cas9::T2A::Blasticidin). Trim71 KO: GFP_5xT71BS Trim71-/-. Ago2 KO: GFP_5xT71BS Ago2-/-. Experiment 2 (Samples 10-21): parental cell line: GFP_5xT71BS. T6B_Wt: Overexpression of T6B_WT, T6B_Mut: Overexpression of T6B_MUT. Trim71_KO: GFP_5xT71BS, Trim71-/- transfected with empty plasmid. Ago2_KO: GFP_5xT71BS, Ago2-/- transfected with empty plasmid.

Project description:sgRNA screens for factors influencing Trim71 silencing activity.

Project description:RIP-sequencing in mouse embryonic stem cells. Experiment 1 (Samples 1-18): Base cell line (untagged control cells): GFP_5xT71BS (mES [129S6/SvEvTac], yGlob [GFP_5xT71BS], stable transfection FLAG-Cas9::T2A::Blasticidin). HA-Tnrc6a: endogenously HA-AVI-tagged Tnrc6a. HA-Tnrc6a_Trim71KO: HA-AVI-tagged Tnrc6a, Trim71-/-. Experiment 2 (Samples 19-42): Ctrl: base cell line GFP_5xT71BS. Tnrc6a: endogenously HA-AVI-tagged Tnrc6a. Tnrc6a_Trim71KO: HA-AVI-tagged Tnrc6a, Trim71-/-. Tnrc6a_Ago2KO: HA-AVI-tagged Tnrc6a, Ago2-/-.

Project description:Argonaute (Ago) proteins through their association with small RNAs perform a critical function in the effector step of RNA interference. The TNRC6 (trinucleotide repeat containing 6) family of proteins have been shown to stably associate with Agos in mammalian cells. Here, we describe the isolation and functional characterization of TNRC6B- and TNRC6C-containing complexes. We show that TNRC6B and TNRC6C proteins associate with all four human Agos which are already loaded with microRNAs. Detailed domain analysis of TNRC6B protein indicated that distinct domains of the protein are required for Ago binding and P-body localization. Functional analysis using reporter constructs responsive to TNRC6B tethered through an MS2-binding domain indicates that neither the Ago-binding nor the P-body localization domains are required for translational silencing. In contrast, the C-terminal domain containing the RNA recognition motif plays a critical role in the silencing mediated by the TNRC6B protein.

Project description:RIP-sequencing in mouse embryonic stem cells. Experiment 3 (Samples 2-24) & 4 (Samples 25-48): Base cell line (untagged control cells): GFP_5xT71BS (mES [129S6/SvEvTac], yGlob [GFP_5xT71BS], stable transfection FLAG-Cas9::T2A::Blasticidin). HA-Tnrc6a: endogenously HA-AVI-tagged Tnrc6a. HA-Tnrc6a_Trim71KO: HA-AVI-tagged Tnrc6a, Trim71-/-. Experiment 2 (Samples 19-42): Ctrl: base cell line GFP_5xT71BS. Tnrc6a: endogenously HA-AVI-tagged Tnrc6a. Tnrc6a_Trim71KO: HA-AVI-tagged Tnrc6a, Trim71-/-. Tnrc6a_Ago2KO: HA-AVI-tagged Tnrc6a, Ago2-/-.

Project description:Proteins of the GW182 family interact with Argonaute proteins and are required for miRNA-mediated gene silencing. These proteins contain two structural domains, an ubiquitin-associated (UBA) domain and an RNA recognition motif (RRM), embedded in regions predicted to be unstructured. The structure of the RRM of Drosophila melanogaster GW182 reveals that this domain adopts an RRM fold, with an additional C-terminal alpha-helix. The helix lies on the beta-sheet surface, generally used by these domains to bind RNA. This, together with the absence of aromatic residues in the conserved RNP1 and RNP2 motifs, and the lack of general affinity for RNA, suggests that the GW182 RRM does not bind RNA. The domain may rather engage in protein interactions through an unusual hydrophobic cleft exposed on the opposite face of the beta-sheet. We further show that the GW182 RRM is dispensable for P-body localization and for interaction of GW182 with Argonaute-1 and miRNAs. Nevertheless, its deletion impairs the silencing activity of GW182 in a miRNA target-specific manner, indicating that this domain contributes to silencing. The conservation of structural and surface residues suggests that the RRM domain adopts a similar fold with a related function in insect and vertebrate GW182 family members.