Project description:Ribonucleoprotein (RNP) granules are non-membrane bound organelles thought to assemble by protein-protein interactions of RNA-binding proteins. We present evidence that a wide variety of RNAs self-assemble in vitro into either liquid-liquid phase separations or more stable assembles, referred to as RNA tangles. Self-assembly in vitro is affected by RNA length, ionic conditions, and sequence. Remarkably, self-assembly of yeast RNA in vitro under physiological salt mimics the composition of mRNAs within yeast stress granules. This suggests that the biophysical principles that drive RNA self-assembly in vitro contribute to determining the stress granule transcriptome. Consistent with RNA self-assembly contributing to RNP granule formation, an excess of purified RNA injected into C. elegans syncytium coalesces into droplet-like assemblies. We suggest that diverse RNA-RNA interactions in trans contribute to RNP granule formation and may explain the prevalence of large RNA-protein assemblies in eukaryotic cells.

Project description:Female sterile (1) Yb (Yb) is a primary component of Yb bodies, perinuclear foci known as the site of PIWI-interacting RNA (piRNA) biogenesis in Drosophila ovarian somatic cells. Yb consists of Helicase C-terminal (Hel-C), RNA helicase and extended Tudor (eTud) domains. We previously showed that the RNA helicase domain is necessary for Yb−RNA interaction, Yb body formation and piRNA biogenesis. Here, we investigated the functions of the two other domains and found that Hel-C and eTud are necessary for Yb to self-associate and to interact with RNAs and other Yb body components, respectively. Both domains were essential for Yb body formation and transposon silencing. Without eTud, piRNA production was completely impaired. Loss of Hel-C severely reduced the levels of transposon-targeting piRNAs, although genic piRNAs unrelated to transposon silencing were still produced. Similar phenotypes were observed when mutations in flamenco, the primary source of transposon-targeting piRNAs, led to the expression of attenuated RNAs. Yb bodies are liquid-like multivalent condensates whose assembly depends on Yb self-association and widespread Yb−flamenco RNA binding.

Project description:Forum domains are stretches of chromosomal DNA that are excised from eukaryotic chromosomes during their spontaneous non-random fragmentation. Mostly forum domains are of 50-200 kb in length, although larger domains, up to 500 - 700 kb, are also observed. We performed a genome-wide mapping of forum domains termini in human HEK293T cells cultured cells using deep sequencing of the termini. We found that forum domains termini correspond to the fragile sites in human chromosomes and forum domains contain clusters of several or many genes inside. The largest forum domains correspond to the coordinately expressed main clusters of HOX genes genes. Our results indicate that forum domains correspond to big multi-gene chromosomal units some of which could be co-coordinately activated or repressed. 2 sample examined: forum termini from HEK293T cells in two independent experiments

Project description:Eukaryotic chromosomes are subjected to spontaneous fragmentation even under quick isolation of DNA in a solid phase by strong treatment with 0.1 M EDTA, 1% SDS and proteinase K (1 mg/ml). The long DNA fragments of excised chromosomal DNA were denoted as forum domains. Mostly forum domains are of 50-200 kb in length, although larger domains, up to 500 - 700 kb, are also observed. The domains are delimited by hot spots of double-strand breaks (DSBs). We performed a genome-wide mapping of DSBs in human HEK293T cells cultured cells using Illumina deep sequencing of the termini of forum domains. We found that in rDNA units the hot spots of DSBs are distributed non-randomly. Mostly they are located in IGS. Genome-wide mapping of DNA DSBs in HEK293T cells

Project description:It was reported that deletion of gcnE in the filamentous fungus Aspergillus nidulans results in minor defects in primary metabolism and major defects in development and secondary metabolism. Here we unveil the role of GcnE in development. The A. nidulans strains used in this study were the wild type FGSC26 (biA1 veA1) and the M-bM-^HM-^FgcnE mutant. Strains were grown in complete liquid medium for 18 h at 37 M-BM-:C and then conidiation was induced by transferring the vegetative cultures to complete solid media.

Project description:Forum domains are stretches of chromosomal DNA that are excised from eukaryotic chromosomes during their spontaneous non-random fragmentation. Mostly forum domains are of 50-200 kb in length, although larger domains, up to 500 - 700 kb, are also observed. We performed a genome-wide mapping of forum domains termini in human HEK293T cells cultured cells using deep sequencing of the termini. We found that forum domains termini correspond to the fragile sites in human chromosomes and forum domains contain clusters of several or many genes inside. The largest forum domains correspond to the coordinately expressed main clusters of HOX genes genes. Our results indicate that forum domains correspond to big multi-gene chromosomal units some of which could be co-coordinately activated or repressed.

Project description:Eukaryotic chromosomes are subjected to spontaneous fragmentation even under quick isolation of DNA in a solid phase by strong treatment with 0.1 M EDTA, 1% SDS and proteinase K (1 mg/ml). The long DNA fragments of excised chromosomal DNA were denoted as forum domains. Mostly forum domains are of 50-200 kb in length, although larger domains, up to 500 - 700 kb, are also observed. The domains are delimited by hot spots of double-strand breaks (DSBs). We performed a genome-wide mapping of DSBs in human HEK293T cells cultured cells using Illumina deep sequencing of the termini of forum domains. We found that in rDNA units the hot spots of DSBs are distributed non-randomly. Mostly they are located in IGS.

Project description:Large DNA fragments (mainly of 50-250 kb, denoted as forum domains) were isolated inside agarose plugs as described below in the extract protocol section. After ligation of 5'-bio-oligos to the blunt DNA termini the digestion with Sau3A enzyme was performed followed by selection of genome-wide preparation of forum domains termini on streptavidin-paramegnetic particles. After ligation of Sau3A adapter the termini were PCR amplified and used for deep sequencing.

Project description:Nuclear speckles (NSs) are nuclear biomolecular condensates that are postulated to arise through liquid-liquid phase separation (LLPS), although the detailed underlying forces driving NS formation remain elusive. SRRM2 and SON are 2 non-redundant scaffold proteins for NSs. How each individual protein governs assembly of NS protein network and the functional relationship between SRRM2 and SON are largely unknown. Here, we uncover immiscible multiphase of SRRM2 and SON within NSs. SRRM2 and SON are functionally independent, specifically regulating alternative splicing of subsets of mRNA targets, respectively. We further uncover that SRRM2 forms multicomponent liquid phase in cells to drive NS subcompartmentalization, which is reliant on homotypic interaction and heterotypic non-selective protein-RNA complex coacervation-driven multicomponent LLPS. SRRM2 RS domains form high-order oligomers, and can be replaced by oligomerizable synthetic modules, the serine residues within the RS domains, however, play an irreplaceable role in fine-tuning the liquidity of NSs.

Project description:Cytoplasmic RNA granules have emerged as important elements of posttranscriptional and translational regulation. Stress, germinal and neuronal granules contain RNA-binding proteins capable of self-assembly due to prion-like domains. Hyperassembly mediated by these prion-like domains causes several neurodegenerative diseases. Here, we report a subset of the mammalian prion protein (PrP), also prone to self-assembly, propagation and to cause devastating diseases, is a component of naturally occurring messenger ribonucleoproteins (mRNPs) in adult mouse brains. Biomolecules co-purified with PrP revealed a multitude of diverse RNA granule associated proteins and mRNAs encoding members of the translation machinery, indicating a role in a specialized translation process. Importantly, PrP mutations linked to Creutzfeldt-Jakob disease (CJD) or fatal familial insomnia (FFI) severely impaired recovery of mRNPs from preclinical mice, possibly representing a very early pathological process. Thus, mutant PrP may cause dysfunction in RNA regulation, thereby joining the constantly expanding ranks of disease associated RNP granule proteins. The file Enrichment_analysis.xlsx contains mRNAs (FDR < 0.01) co-purified with PrP in both WT sample pools as identified by DESeq2 and the respective gene counts and log2 fold changes for CJD and FFI PrP:IP sample pools.