Benoît Aliaga
@benoit3166.bsky.social
Postdoc at Toulouse Cancer Research Center
#aging #cancer #epigenetics #evolution #bioinformatics
#aging #cancer #epigenetics #evolution #bioinformatics
🚀 Calling all young cancer researchers!
Abstract submission is NOW OPEN for the 3rd #YS2C Congress!
📍 Berlin | 🗓️ Oct 9–10, 2025
Showcase your work, connect, and inspire the future of cancer research.
👉 Submit today: ys2c.org
#CancerResearch #Postdoc #Clinician
Abstract submission is NOW OPEN for the 3rd #YS2C Congress!
📍 Berlin | 🗓️ Oct 9–10, 2025
Showcase your work, connect, and inspire the future of cancer research.
👉 Submit today: ys2c.org
#CancerResearch #Postdoc #Clinician
May 30, 2025 at 5:10 PM
🚀 Calling all young cancer researchers!
Abstract submission is NOW OPEN for the 3rd #YS2C Congress!
📍 Berlin | 🗓️ Oct 9–10, 2025
Showcase your work, connect, and inspire the future of cancer research.
👉 Submit today: ys2c.org
#CancerResearch #Postdoc #Clinician
Abstract submission is NOW OPEN for the 3rd #YS2C Congress!
📍 Berlin | 🗓️ Oct 9–10, 2025
Showcase your work, connect, and inspire the future of cancer research.
👉 Submit today: ys2c.org
#CancerResearch #Postdoc #Clinician
Old UC genes have preferential interactions in all 3 cell states. EM genes have reduced preferential interactions in cancer. New genes acquire some preferential interactions only in cancer, potentially mediated by the lamina at the nuclear periphery.
February 21, 2025 at 5:30 PM
Old UC genes have preferential interactions in all 3 cell states. EM genes have reduced preferential interactions in cancer. New genes acquire some preferential interactions only in cancer, potentially mediated by the lamina at the nuclear periphery.
We used chromatin assortativity (ChAs) analysis to quantify clustering patterns of genes with specific characteristics. Read this paper to know more about the ChAseR tool to perform this analysis (Madrid-Mencia et al. 2020 shorturl.at/Ax73E).
February 21, 2025 at 5:30 PM
We used chromatin assortativity (ChAs) analysis to quantify clustering patterns of genes with specific characteristics. Read this paper to know more about the ChAseR tool to perform this analysis (Madrid-Mencia et al. 2020 shorturl.at/Ax73E).
Polycomb is key for 3D chromatin structure (Pancaldi et al. 2016 shorturl.at/YEOQr). So we looked at spatial organisation of genes of specific evolutionary ages finding preferential interactions on 3D promoter-centred chromatin networks.
February 21, 2025 at 5:30 PM
Polycomb is key for 3D chromatin structure (Pancaldi et al. 2016 shorturl.at/YEOQr). So we looked at spatial organisation of genes of specific evolutionary ages finding preferential interactions on 3D promoter-centred chromatin networks.
We analysed differentiation and oncogenesis with 3 cell types: stem, differentiated, and cancer (hESC, B cells, and CLL, a B-cell lymphoma). RNA PolII Pausing regulates primarily old UC genes, especially in normal B cells, in which Polycomb targets the highest gene percentage.
February 21, 2025 at 5:30 PM
We analysed differentiation and oncogenesis with 3 cell types: stem, differentiated, and cancer (hESC, B cells, and CLL, a B-cell lymphoma). RNA PolII Pausing regulates primarily old UC genes, especially in normal B cells, in which Polycomb targets the highest gene percentage.
Combining ChIP-seq and DNA methylation datasets in monocytes we see different regulation: Polycombs preferentially regulates intermediate EM genes, and DNA methylation regulates mainly recent MM genes.
February 21, 2025 at 5:30 PM
Combining ChIP-seq and DNA methylation datasets in monocytes we see different regulation: Polycombs preferentially regulates intermediate EM genes, and DNA methylation regulates mainly recent MM genes.
Second: in monocytes the Polycomb, H3K27me3 repressive mark shows a higher enrichment around intermediate EM genes, than around old UC and young MM genes.
February 21, 2025 at 5:30 PM
Second: in monocytes the Polycomb, H3K27me3 repressive mark shows a higher enrichment around intermediate EM genes, than around old UC and young MM genes.
First: gene expression and expression variability across individuals are strongly associated with evolutionary ages in 3 immune cell types, old UC genes - low variability, recent EM genes - high variability
February 21, 2025 at 5:30 PM
First: gene expression and expression variability across individuals are strongly associated with evolutionary ages in 3 immune cell types, old UC genes - low variability, recent EM genes - high variability