Browse
Submit Data
Databases
API
Help

Dataset Information

0 Views

0 Connections

0 Citations

0 Reanalyses

0 Downloads

Omics score: 0

GGC repeat expansions within novel open reading frames are translated into toxic polyglycine proteins in oculopharyngodistal myopathy

ABSTRACT: 3 to 6% of the human genome is composed of microsatellite sequences, which are short DNA elements composed of 2 to 6 nucleotide motifs repeated in tandem. Expansion of a subset of these microsatellites is the leading cause of >60 diseases. However, most of these mutations are located in sequences annotated as non-coding, thus questioning how they are pathogenic. Here, we found that GGC repeat expansions causing oculopharyngodistal myopathy with or without leukoencephalopathy (OPDM/OPML) are located within previously unrecognized open reading frames (ORFs), resulting in their translation into novel polyglycine-containing proteins. Antibodies developed against these proteins stain the p62-positive inclusions typical of these diseases. Moreover, expression of these polyglycine proteins causes locomotor and skeletal muscle alterations associated with neurodegeneration in cell, fly and mouse models. Finally, we identified a compound, the cationic porphyrin TMPyP4, targeting expression of these polyglycine proteins, raising hope to develop a therapy for these disorders. Overall, this work highlights the complexity and richness of the human genome and the importance of mutations in yet unrecognized small ORFs.

INSTRUMENT(S):

ORGANISM(S): Homo Sapiens (human)

TISSUE(S): Cell Culture

SUBMITTER: Bastien Morlet

LAB HEAD: Nicolas Charlet-Berguerand

PROVIDER: PXD071983 | Pride | 2026-02-03

REPOSITORIES: Pride

ACCESS DATA

Json Xml

Dataset's files

Source:

			Action	DRS
	240126_MB_01rep1.msf	Msf
	240126_MB_01rep1.raw	Raw
	240126_MB_01rep2.msf	Msf
	240126_MB_01rep2.raw	Raw
	240126_MB_01rep3.msf	Msf

Items per page:

1 - 5 of 68

Similar Datasets

RNA Sequencing of HEK293T cells expressing 15xGly or 99xGly

Project description:Protein aggregates are a hallmark of neurodegenerative disease proposed to promote neurotoxicity through a diverse and growing set of mechanisms. Aggregation of polyglycine is specifically implicated in the pathogenesis of an emerging group of neurodegenerative GGC repeat expansion diseases. Here, we find that polyglycine aggregates incorporate endogenous proteins harboring glycine-rich sequences, including FAM98B, a conserved component of the vertebrate tRNA ligase complex. Through sequestration and accelerated proteosome-dependent turnover mediated by the FAM98B glycine-rich intrinsically disordered region (IDR), polyglycine depletes the ligase complex and disrupts tRNA processing.

2025-07-17 | GSE246377 | GEO

New proteomic signature in circulating extracellular vesicles from tumor-draining and peripheral veins of patients with lung adenocarcinoma

Project description:The identification of noninvasive prognostic biomarkers for monitoring relapse in patients with locally advanced lung cancer remains a primary objective. Tumor-draining vein (TDV) plasma samples are known to be enriched in cancer biomarkers compared to peripheral vein (PV) samples. Therefore, we aimed to investigate the proteomic profile of extracellular vesicles (EVs) from TDV and PV plasma samples in patients undergoing surgery for lung adenocarcinoma. A comparison with proteomic analyzes from tumor and non-tumor tissues was performed in parallel. Purified EVs from TDV and PV plasma samples were characterized for size distribution and concentration using nanoparticles tracking analysis. Proteomic profiling of TDV-derived and PV-derived EVs was performed using mass spectrometry (nanoLC-MS/MS) analysis, as the proteomic profile of tumor tissue and adjacent non-tumoral counterparts. Twenty patients operated for a lung adenocarcinoma were enrolled.

2025-07-29 | PXD066683 | Pride

OTTR-seq of FXTAS brain reveals tRNA ligase dysfunction

2025-07-17 | GSE283760 | GEO

Genome-wide analysis of mRNA lengths in Saccharomyces cerevisiae

Project description:We developed a 'Virtual Northern' method, using DNA microarrays for genome-wide systematic analysis of mRNA lengths. We used this method to measure mRNAs corresponding to 84% of the annotated open reading frames (ORFs) in the S. cerevisiae genome, with high precision and accuracy (measurement errors 1 6-7%). We found a close linear relationship between mRNA lengths and the lengths of known or predicted translated sequences; mRNAs were typically around 300 nucleotides longer than the translated sequences. Analysis of genes deviating from that relationship identified ORFs with annotation errors, ORFs that appear not to be bona fide genes, and potentially novel genes. Interestingly, we found that systematic differences in the total length of the untranslated sequences in mRNAs were related to the functions of the encoded proteins. Groups of assays that are related as part of a time series. Keywords: time_series_design

2005-12-30 | GSE3932 | GEO

Pan-viral ORFs discovery using massively parallel ribosome profiling

Project description:Defining viral proteomes is crucial to understanding viral life cycles and immune recognition but the landscape of translated regions remains unknown for most viruses. We have developed massively parallel ribosome profiling (MPRP) to determine open reading frames (ORFs) across tens of thousands of designed oligonucleotides. MPRP identified 4208 unannotated ORFs in 679 human-associated viral genomes. We found viral peptides originating from detected noncanonical ORFs presented on class-I human leukocyte antigen (HLA-I) in infected cells and hundreds of upstream ORFs that likely modulate translation initiation of viral proteins. The discovery of viral ORFs across a wide range of viral families—including highly pathogenic viruses—expands the repertoire of vaccine targets and reveals potential cis-regulatory sequences.

2025-06-12 | GSE272406 | GEO

Single myonuclei RNA-seq on control vs AAV-OPDM mouse models

Project description:We injected in WT BL6 male mice either NaCl (control) or AAV.MYO4A coding either for the GFP (control) of for ATG polyG-GFP, OPDM2 uGIPpolyG-GFP, OPDM3 uN2CpolyG-GFP or OPML LOC6polyG-GFP. These diverse polyGlycine proteins are responsible oculopharyngodistal myopathy (OPDM). Our aim was to determine through single nuclei RNA seq whether expression of these polyGlycine-proteins in muscle leads to a common and specific signature.

2026-02-03 | GSE314684 | GEO

Virtual northern using DNA microarrays for genome wide systematic analysis of mRNA lengths, used to measure mRNAs corresponding to 84% of the annotated open reading frames (ORFs) in the yeast genome

2005-10-27 | E-SMDB-2508 | biostudies-arrayexpress

Genome-wide analysis of mRNA lengths in Saccharomyces cerevisiae

2005-12-29 | E-GEOD-3932 | biostudies-arrayexpress

Translation and Natural Selection of long non-canonical RNA micropeptides

Project description:Long noncoding RNAs (lncRNAs) are transcripts longer than 200 nucleotides but lacking canonical coding sequences. Apparently unable to produce peptides, lncRNA function seems to only involve RNA sequence and structure. Here, we exhaustively detect in-vivo translation of small open reading frames (small ORFs) within lncRNAs using Ribosomal profiling during Drosophila melanogaster embryogenesis. We show that around 30% of lncRNAs contain small ORFs engaged by ribosomes, leading to regulated translation of 100 to 300 micropeptides. We identify lncRNA features that favour translation, such as cistronicity, Kozak sequences, and conservation. For this latter, we develop a bioinformatics pipeline to detect small ORF homologues, and we reveal evidence of natural selection favouring the conservation of micropeptide sequence and function across evolution. Our results expand the repertoire of lncRNA functions, and suggest that lncRNAs give rise to novel coding genes throughout evolution. Since most lncRNAs contain small ORFs with as yet unknown translation potential, we propose to rename them “long non-canonical RNAs”.

2022-11-02 | GSE204739 | GEO

Identification of translated small open reading frames in lymphocytes

Project description:Open reading frames (ORFs) are the genomic DNA sequences that have the potential to be translated. Genome annotation pipelines dismiss translation products of small ORFs (smORFs) of less than 100 codons (<300 nucleotides) as being unlikely to have a biological function. In this study, we systematically characterized smORFs in mouse B and T cells under different conditions and predicted a total of 5744 unique actively translated smORFs. We then extended our analysis to ORFs of 101-200 codons in length and predicted 945 of such longer translation products. Additionally, our results have suggested the existence of candidate secreted micropeptides. Furthermore, verifying their existence and identifying their functions will be essential and potentially lead to useful applications.

2021-04-28 | GSE154491 | GEO

OmicsDI is part of the ELIXIR infrastructure

OmicsDI is an Elixir interoperability service. Learn more ›

Tweets

OmicsDI Databases

PRIDE
PeptideAtlas
MassIVE
JPOST Repository
Physiome Model Repository

EGA
EVA
ENA
LINCS
PAXDB
Cell Collective

MetaboLights
Metabolomics Workbench
MetabolomeExpress
GNPS
BioModels
FAIRDOMHub

ArrayExpress
dbGaP
ExpressionAtlas
GEO
NODE

Information

Databases
Help
API
Contact us
Code on GitHub
Terms of use
Submit Data