yomna96.bsky.social
@yomna96.bsky.social
PhD student at HHU
Bioinformatician
Bioinformatician
Reposted by yomna96.bsky.social
Tread -8- EpiSci - We explicate how nanotopography-sensitive and mechanotransduction-dependent Nanog regulation is mediated by KDM3A These results show for the first time a molecular mechanism by which nanotopography-dependent stimulation specifically triggers a nuclear epigenetic mechanoresponse
February 14, 2026 at 10:34 AM
Tread -8- EpiSci - We explicate how nanotopography-sensitive and mechanotransduction-dependent Nanog regulation is mediated by KDM3A These results show for the first time a molecular mechanism by which nanotopography-dependent stimulation specifically triggers a nuclear epigenetic mechanoresponse
Reposted by yomna96.bsky.social
Tread -7- EpiSci - 3. Nanotopography upregulates KDM3A,a specific Histone H3K9me2 demethylase. We discovered a new variant of KDM3A in mESCs. We developed a degron system which efficiently ablates all variants allowing to study the mechanistic role of the protein in an acute and reversible way.
February 14, 2026 at 10:31 AM
Tread -7- EpiSci - 3. Nanotopography upregulates KDM3A,a specific Histone H3K9me2 demethylase. We discovered a new variant of KDM3A in mESCs. We developed a degron system which efficiently ablates all variants allowing to study the mechanistic role of the protein in an acute and reversible way.
Reposted by yomna96.bsky.social
Tread -6- EpiSci - RNA-seq analysis reveals that nanotopography induces a broad transcriptional response characterised by downregulation of integrin adhesion complexes, actin cytoskeleton organisation, and cell migration, alongside upregulation of core pluripotency factors such as Nanog.
February 14, 2026 at 10:25 AM
Tread -6- EpiSci - RNA-seq analysis reveals that nanotopography induces a broad transcriptional response characterised by downregulation of integrin adhesion complexes, actin cytoskeleton organisation, and cell migration, alongside upregulation of core pluripotency factors such as Nanog.
Reposted by yomna96.bsky.social
Tread -5- Consistently with nuclear 3D changes, mESC/nanotopography interaction induces marked changes in chromatin organisation with reduced levels of H3K27me3 and H3K9me2, concomitant with increased H3K4me3. H3K9me3 levels remain unchanged, but is redistributed toward the nuclear periphery .
February 14, 2026 at 10:22 AM
Tread -5- Consistently with nuclear 3D changes, mESC/nanotopography interaction induces marked changes in chromatin organisation with reduced levels of H3K27me3 and H3K9me2, concomitant with increased H3K4me3. H3K9me3 levels remain unchanged, but is redistributed toward the nuclear periphery .
Reposted by yomna96.bsky.social
Tread -4- EpiSci - Our AFM measurements further reveal that nanotopography induces a progressive decrease in cellular tension and stiffness and importantly is accompanied by a change of the nuclear 3D shape.
February 14, 2026 at 10:13 AM
Tread -4- EpiSci - Our AFM measurements further reveal that nanotopography induces a progressive decrease in cellular tension and stiffness and importantly is accompanied by a change of the nuclear 3D shape.
Reposted by yomna96.bsky.social
Tread -3- EpiSci - We used nanofabrication technique Supersonic Cluster Beam Deposition (SCBD) to produce substrates with nanotopographical features of defined roughness that mimic ultrastructural ECM characteristics. Nanotopography strongly impact mESCs morphology.
February 14, 2026 at 10:09 AM
Tread -3- EpiSci - We used nanofabrication technique Supersonic Cluster Beam Deposition (SCBD) to produce substrates with nanotopographical features of defined roughness that mimic ultrastructural ECM characteristics. Nanotopography strongly impact mESCs morphology.
Reposted by yomna96.bsky.social
Tread-2- EpiSci - The extracellular matrix (ECM) topography is increasingly recognised as a powerful regulator of cell behaviour, yet whether nanoscale topography can directly and deterministically instruct nuclear architecture and cell identity remains virtually unknown.
February 14, 2026 at 10:03 AM
Tread-2- EpiSci - The extracellular matrix (ECM) topography is increasingly recognised as a powerful regulator of cell behaviour, yet whether nanoscale topography can directly and deterministically instruct nuclear architecture and cell identity remains virtually unknown.
Reposted by yomna96.bsky.social
Tread -1- EpiSci - I am very proud to share with you our new study that you can access on @biorxivpreprint.bsky.social (see link below)
"The Interaction with Nanotopographical Environment regulates nuclear mechanoresponse in mESCs via Histone Demethylase KDM3A.
www.biorxiv.org/content/10.6...
"The Interaction with Nanotopographical Environment regulates nuclear mechanoresponse in mESCs via Histone Demethylase KDM3A.
www.biorxiv.org/content/10.6...
February 14, 2026 at 10:00 AM
Tread -1- EpiSci - I am very proud to share with you our new study that you can access on @biorxivpreprint.bsky.social (see link below)
"The Interaction with Nanotopographical Environment regulates nuclear mechanoresponse in mESCs via Histone Demethylase KDM3A.
www.biorxiv.org/content/10.6...
"The Interaction with Nanotopographical Environment regulates nuclear mechanoresponse in mESCs via Histone Demethylase KDM3A.
www.biorxiv.org/content/10.6...