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#vimentin — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #vimentin, aggregated by home.social.

  1. 📰 "Glutamylated vimentin proteoform identified by a synthetic binder links to epithelial-mesenchymal plasticity"
    biorxiv.org/content/10.64898/2 #Cytoskeletal #Dynamics #Vimentin

  2. 📰 "Glutamylated vimentin proteoform identified by a synthetic binder links to epithelial-mesenchymal plasticity"
    biorxiv.org/content/10.64898/2 #Cytoskeletal #Dynamics #Vimentin

  3. 📰 "The pathogenic mutant vimentin L387P disrupts endoplasmic reticulum organization and proteostasis"
    biorxiv.org/content/10.64898/2 #CellDivision #Vimentin

  4. 📰 "Vimentin intermediate filaments support autophagosome biogenesis at ER-endosomes contact sites in response to starvation"
    biorxiv.org/content/10.1101/10 #Dynamics #Vimentin #Cell

  5. 📰 "Expression of vimentin intermediate filaments in epithelial cells promotes cell migration and cell matrix interaction in 3D"
    doi.org/doi:10.1101/2025.09.18
    pubmed.ncbi.nlm.nih.gov/410008
    #CellMigration #Mechanics #Vimentin

  6. 📰 "Entanglement of vimentin shapes the microrheological response of suspended-like melanoma WM35 cells to oscillatory strains induced by different AFM probe geometries"
    doi.org/doi:10.1016/j.bbagen.2
    pubmed.ncbi.nlm.nih.gov/399549
    #Mechanical #Vimentin #Actin

  7. 📰 "Entanglement of vimentin shapes the microrheological response of suspended-like melanoma WM35 cells to oscillatory strains induced by different AFM probe geometries"
    doi.org/doi:10.1016/j.bbagen.2
    pubmed.ncbi.nlm.nih.gov/399549
    #Mechanical #Vimentin #Actin

  8. 📰 "Entanglement of vimentin shapes the microrheological response of suspended-like melanoma WM35 cells to oscillatory strains induced by different AFM probe geometries"
    doi.org/doi:10.1016/j.bbagen.2
    pubmed.ncbi.nlm.nih.gov/399549
    #Mechanical #Vimentin #Actin

  9. @Rxiv_mechanobio

    Interesting review !

    "Far from being homogeneous beams, cytoskeletal filaments have complex mechanical properties, which are directly related to the specific structural arrangement of their subunits. They are also versatile, as the filaments’ mechanics and biochemistry are tightly coupled, and their
    properties can vary with the cellular context."

    #actin #microtubule #vimentin

  10. @Rxiv_mechanobio

    Interesting review !

    "Far from being homogeneous beams, cytoskeletal filaments have complex mechanical properties, which are directly related to the specific structural arrangement of their subunits. They are also versatile, as the filaments’ mechanics and biochemistry are tightly coupled, and their
    properties can vary with the cellular context."

    #actin #microtubule #vimentin

  11. @Rxiv_mechanobio

    Interesting review !

    "Far from being homogeneous beams, cytoskeletal filaments have complex mechanical properties, which are directly related to the specific structural arrangement of their subunits. They are also versatile, as the filaments’ mechanics and biochemistry are tightly coupled, and their
    properties can vary with the cellular context."

    #actin #microtubule #vimentin

  12. 📰 "Plakins are involved in the maintenance of epithelial polarity"
    by 🔬 Geay, J., Margaron, Y., Gentien, D., Reyal, F., Puisieux, A., Guyon, L., Thery, M.
    biorxiv.org/content/10.1101/20 #Vimentin

  13. Are you interested in the #cytoskeleton ...?

    #actin, #actomyosin, #myosin, #microtubule, #kinesin, #intermediatefilament, #vimentin, #keratin, #desmin, #GFAP, #peripherin, #syncoilin, #internexin, #neurofilament, #synemin, #syncoilin, #lamin

    are hashtags used by @Rxiv_cytoskeleton bot.

    Unfortunately, if you search / follow one of these hashtags, most of the posts from this bot will be invisible because a recent policy makes them "unlisted", see botsin.space/@muffinista/11037

    #ScienceMastodon

    1/2

  14. Are you interested in the #cytoskeleton ...?

    #actin, #actomyosin, #myosin, #microtubule, #kinesin, #intermediatefilament, #vimentin, #keratin, #desmin, #GFAP, #peripherin, #syncoilin, #internexin, #neurofilament, #synemin, #syncoilin, #lamin

    are hashtags used by @Rxiv_cytoskeleton bot.

    Unfortunately, if you search / follow one of these hashtags, most of the posts from this bot will be invisible because a recent policy makes them "unlisted", see botsin.space/@muffinista/11037

    #ScienceMastodon

    1/2

  15. Are you interested in the #cytoskeleton ...?

    #actin, #actomyosin, #myosin, #microtubule, #kinesin, #intermediatefilament, #vimentin, #keratin, #desmin, #GFAP, #peripherin, #syncoilin, #internexin, #neurofilament, #synemin, #syncoilin, #lamin

    are hashtags used by @Rxiv_cytoskeleton bot.

    Unfortunately, if you search / follow one of these hashtags, most of the posts from this bot will be invisible because a recent policy makes them "unlisted", see botsin.space/@muffinista/11037

    #ScienceMastodon

    1/2

  16. Are you interested in the #cytoskeleton ...?

    #actin, #actomyosin, #myosin, #microtubule, #kinesin, #intermediatefilament, #vimentin, #keratin, #desmin, #GFAP, #peripherin, #syncoilin, #internexin, #neurofilament, #synemin, #syncoilin, #lamin

    are hashtags used by @Rxiv_cytoskeleton bot.

    Unfortunately, if you search / follow one of these hashtags, most of the posts from this bot will be invisible because a recent policy makes them "unlisted", see botsin.space/@muffinista/11037

    #ScienceMastodon

    1/2

  17. Are you interested in the #cytoskeleton ...?

    #actin, #actomyosin, #myosin, #microtubule, #kinesin, #intermediatefilament, #vimentin, #keratin, #desmin, #GFAP, #peripherin, #syncoilin, #internexin, #neurofilament, #synemin, #syncoilin, #lamin

    are hashtags used by @Rxiv_cytoskeleton bot.

    Unfortunately, if you search / follow one of these hashtags, most of the posts from this bot will be invisible because a recent policy makes them "unlisted", see botsin.space/@muffinista/11037

    #ScienceMastodon

    1/2

  18. Diese Struktur aus Proteinfilamenten macht die Zellen stabil, dehnbar und widerstandsfähig gegen äußere Kräfte. Hier spielen sogenannte Intermediärfilamente eine wichtige Rolle. Davon findet man interessanterweise in beweglichen und stationären Zellen zwei verschiedene Typen. Forschenden der Uni #Göttingen und der ETH Zürich ist es gelungen, die beiden #Filamente mechanisch genau zu charakterisieren.

    #Keratin #Vimentin #Mechanik

  19. Diese Struktur aus Proteinfilamenten macht die Zellen stabil, dehnbar und widerstandsfähig gegen äußere Kräfte. Hier spielen sogenannte Intermediärfilamente eine wichtige Rolle. Davon findet man interessanterweise in beweglichen und stationären Zellen zwei verschiedene Typen. Forschenden der Uni #Göttingen und der ETH Zürich ist es gelungen, die beiden #Filamente mechanisch genau zu charakterisieren.

    #Keratin #Vimentin #Mechanik

  20. Diese Struktur aus Proteinfilamenten macht die Zellen stabil, dehnbar und widerstandsfähig gegen äußere Kräfte. Hier spielen sogenannte Intermediärfilamente eine wichtige Rolle. Davon findet man interessanterweise in beweglichen und stationären Zellen zwei verschiedene Typen. Forschenden der Uni #Göttingen und der ETH Zürich ist es gelungen, die beiden #Filamente mechanisch genau zu charakterisieren.

    #Keratin #Vimentin #Mechanik

  21. 📰 "Extracellular vimentin is sufficient to promote cell attachment, spreading, and motility by a mechanism involving N-acetyl glucosamine-containing structures"
    by 🔬 Bucki, R., Iwamoto, D., Shi, X., Kerr, K. E., Byfield, F. J., Suprewicz, L., Sklodowski, K., Sutaria, J., Misiak, P., Wilczewska, A., Ramachandran, S., Wolfe, A., Thanh, M.-T. H., Whalen, E., Patteson, A. E., Janmey, P.
    biorxiv.org/content/10.1101/20 #Vimentin #Force

  22. 📰 "Extracellular vimentin is sufficient to promote cell attachment, spreading, and motility by a mechanism involving N-acetyl glucosamine-containing structures"
    by 🔬 Bucki, R., Iwamoto, D., Shi, X., Kerr, K. E., Byfield, F. J., Suprewicz, L., Sklodowski, K., Sutaria, J., Misiak, P., Wilczewska, A., Ramachandran, S., Wolfe, A., Thanh, M.-T. H., Whalen, E., Patteson, A. E., Janmey, P.
    biorxiv.org/content/10.1101/20 #Vimentin #Force