Publications by authors named "D Becquet"
The growing role attributed nowadays to long non-coding RNAs (lncRNA) in physiology and pathophysiology makes it crucial to characterize their interactome by identifying their molecular partners, DNA, proteins and/or RNAs. The latter can interact with lncRNA through networks involving proteins, but they can also be engaged in direct RNA/RNA interactions. We, therefore, developed an easy-to-use RNA pull-down procedure that allowed identification of RNAs engaged in direct RNA/RNA interaction with a lncRNA using psoralen, a molecule that cross-links only RNA/RNA interactions.
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- Neat1 is a long non-coding RNA involved in forming paraspeckles, but its specific functions related to paraspeckles are not well understood.
- Recent research indicates that Neat1 plays a role in regulating circadian rhythms, evidenced by studies comparing wild-type and Neat1-deleted rat pituitary cells using RNA sequencing.
- The analysis revealed that Neat1 deletion impacts various mRNAs, linking it to both circadian and non-circadian processes, suggesting its involvement in critical physiological functions through multiple mechanisms.
Paraspeckles are nuclear ribonucleic complex formed of a long non-coding RNA, nuclear-enriched abundant transcript one (Neat1) and associated RNA-binding proteins (RBP) whose cellular known functions are to sequester in the nucleus both proteins and RNAs. However, how RNAs are bound to paraspeckles is largely unknown. It is highly likely that binding of RNAs may occur via interactions with RBPs and accordingly, two structures present in the 3'UTR of some RNAs have been shown to allow their association to paraspeckles via protein binding.
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- - Long non-coding RNAs (lncRNAs) are sequences longer than 200 nucleotides that play a role in regulating gene expression, although many of their functions are still not fully understood; estimates suggest humans have over 10,000 of these transcripts.
- - These lncRNAs interact with other RNAs, influencing processes at both transcriptional and post-transcriptional stages, which necessitates methods to identify these associated RNAs.
- - A new protocol has been developed, involving the design of specific anti-sense DNA probes and optimal fixative conditions, to effectively isolate and analyze RNAs associated with lncRNAs, enhancing our understanding of their RNA interactome through high throughput sequencing.
The circadian clock drives daily rhythms of multiple physiological processes, allowing organisms to anticipate and adjust to periodic changes in environmental conditions. These physiological rhythms are associated with robust oscillations in the expression of at least 30% of expressed genes. While the ability for the endogenous timekeeping system to generate a 24-hr cycle is a cell-autonomous mechanism based on negative autoregulatory feedback loops of transcription and translation involving core-clock genes and their protein products, it is now increasingly evident that additional mechanisms also govern the circadian oscillations of clock-controlled genes.
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