Such an interesting paper !Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature https://t.co/kRD7uu89Ry
RT @KaustavBera11: Super happy to see my @Nature article from last week make into @Facultyopinions recommendation list ("home to the top 1%…
RT @Physiology_Lab: Extracellular viscosity liked to cancer spread. An international team in which the Molecular Physiology Lab at the UPF…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
@Nature @Facultyopinions You can find a snapshot of our findings in this thread https://t.co/Cyt9Yeasgg
Super happy to see my @Nature article from last week make into @Facultyopinions recommendation list ("home to the top 1% of global research")! 🤩 Wouldn't have been possible without my amazing co-authors 🙏 https://t.co/B4IsoeDoiy
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell motility and cancer dissemination has been recommended in @Facultyopinions! Congratulations @KaustavBera11 and all co-authors! https:
Highly viscous fluids imprint a TRPV4-dependent #mechanical memory in cells through transcriptional control of YAP | @Nature 🔹↑ viscosity induces dense actin network ➡️ activates TRPV4 ➡️↑ Ca++ influx ➡️ ↑ RHOA-dependent cell contractility & motility
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
@Nature reported high extracelluar fluid viscosity promotes cancer cells migration in mice model. It seems conflict with our commen sense. Scientists from @HopkinsMedicine uncover the underlying mechanism. Ref:https://t.co/QwH7NjY9ej https://t.co/B0uw0lnv
Nature ハイライト:粘度ががんの転移に関与 | Nature | Nature Portfolio https://t.co/YZIKLqSkh0
RT @MariaPAlcolea: Very interesting! Increased viscosity leads to mechanical memory in cancer cells promoting "invasineness" https://t.co/6…
これはウイルス(エンベロープ, カプシドの両方)においても言えるかもしれませんね!!!!!!!! 魚のウイルスの研究で使えそうな情報です!!!!!!!
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
RT @HGVsci: Tumor cells exposed to high extracellular viscosity, get imprinted to migrate and disseminate in vivo. A major finding for canc…
RT @NCICancerBio: Using 3D tumor #spheroids and mouse models in a study supported by our division, @KaustavBera11, @InesGodet, @KKLabJHU, e…
RT @NCICancerBio: Using 3D tumor #spheroids and mouse models in a study supported by our division, @KaustavBera11, @InesGodet, @KKLabJHU, e…
RT @NCICancerBio: Using 3D tumor #spheroids and mouse models in a study supported by our division, @KaustavBera11, @InesGodet, @KKLabJHU, e…
RT @NCICancerBio: Using 3D tumor #spheroids and mouse models in a study supported by our division, @KaustavBera11, @InesGodet, @KKLabJHU, e…
RT @NCICancerBio: Using 3D tumor #spheroids and mouse models in a study supported by our division, @KaustavBera11, @InesGodet, @KKLabJHU, e…
RT @NCICancerBio: Using 3D tumor #spheroids and mouse models in a study supported by our division, @KaustavBera11, @InesGodet, @KKLabJHU, e…
RT @NCICancerBio: Using 3D tumor #spheroids and mouse models in a study supported by our division, @KaustavBera11, @InesGodet, @KKLabJHU, e…
Thanks for the highlight and for the support @NCICancerBio!
RT @NCICancerBio: Using 3D tumor #spheroids and mouse models in a study supported by our division, @KaustavBera11, @InesGodet, @KKLabJHU, e…
RT @NCICancerBio: Using 3D tumor #spheroids and mouse models in a study supported by our division, @KaustavBera11, @InesGodet, @KKLabJHU, e…
RT @NCICancerBio: Using 3D tumor #spheroids and mouse models in a study supported by our division, @KaustavBera11, @InesGodet, @KKLabJHU, e…
RT @NCICancerBio: Using 3D tumor #spheroids and mouse models in a study supported by our division, @KaustavBera11, @InesGodet, @KKLabJHU, e…
Using 3D tumor #spheroids and mouse models in a study supported by our division, @KaustavBera11, @InesGodet, @KKLabJHU, et al. showed that extracellular fluid viscosity enhances #cellmigration and the spread of cancer @Nature https://t.co/Cz0s3RqUXy.
Tumor cells exposed to high extracellular viscosity, get imprinted to migrate and disseminate in vivo. A major finding for cancer metastasis field. https://t.co/qCKSE7eBHh
RT @CabellsMedicine: Extracellular fluid viscosity enhances #cell migration and #cancer dissemination: "Elevated viscosity counterintuitive…
Extracellular fluid viscosity enhances #cell migration and #cancer dissemination: "Elevated viscosity counterintuitively increases the motility of various cell types on two-dimensional surfaces" https://t.co/qPuMg3u5Nj via @Nature #MedTwitter #CancerResear
Extracellular fluid viscosity enhances cell migration and cancer dissemination https://t.co/A0Qxf4UhKr #science #cancer #fluid #viscosity #cell #migration
RT @AnsethGroup: Our newest postdoc, @KaustavBera11, published today in Nature — he investigated how cells respond to physiological changes…
RT @KaustavBera11: Beyond excited for my first-author article, now out in @Nature! In my PhD @KKLabJHU @INBT_JHU @JHU_ChemBE @HopkinsEngine…
RT @danokin: Incredibly cool work out in @Nature last week details #cellular adaptation to extracellular #viscosity. Congrats to all author…
Incredibly cool work out in @Nature last week details #cellular adaptation to extracellular #viscosity. Congrats to all authors on a fascinating study https://t.co/hatO53t3np
Extracellular fluid viscosity enhances cell migration and cancer dissemination https://t.co/LFUFXgw7Iw https://t.co/CBlkPAot9o
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
RT @medntdj: Extracellular fluid viscosity enhances cell migration and cancer dissemination https://t.co/S24TDKi310 #NCI @KaustavBera11 @SX…
RT @BarbMarte: new out in Nature: https://t.co/FRmed7mwPG
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
RT @Nature: Nature research paper: Extracellular fluid viscosity enhances cell migration and cancer dissemination https://t.co/dwRpT0Go42
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
不思議…なんで粘性の高いほうなんだろう
おもしろい。魚が流れに逆らって泳ぐのに似てる? >細胞は意外にも粘度が高い方に動いていく
RT @Nature: Nature research paper: Extracellular fluid viscosity enhances cell migration and cancer dissemination https://t.co/dwRpT0Go42
RT @Nature: Nature research paper: Extracellular fluid viscosity enhances cell migration and cancer dissemination https://t.co/dwRpT0Go42
RT @Physiology_Lab: Extracellular viscosity liked to cancer spread. An international team in which the Molecular Physiology Lab at the UPF…
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
Need to consider another factor. https://t.co/9EZCsTMTGa
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
RT @ivanoamelio: Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature https://t.co/EmwPyn93Tl
RT @KaustavBera11: Beyond excited for my first-author article, now out in @Nature! In my PhD @KKLabJHU @INBT_JHU @JHU_ChemBE @HopkinsEngine…
Exciting finding!! Many congratulations on your first author nature publication @KaustavBera11 https://t.co/z7GHqeM3Fi
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
RT @Bio_stations: 細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 h…
細胞外の「粘性」が細胞の運動性を制御 細胞は意外にも粘度が高い方に動いていくことを実験的に明らかに。粘性による機械的圧力によって引き起こされるカスケードが大事らしい。がん細胞でも結構見ている 細胞外の粘性、あんま考えたことなかった、、 https://t.co/FpAiWWW8yH
Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature https://t.co/EmwPyn93Tl
RT @FrezzaLab: Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature https://t.co/C4UBUjTI0t
RT @AnsethGroup: Our newest postdoc, @KaustavBera11, published today in Nature — he investigated how cells respond to physiological changes…
RT @Physiology_Lab: Extracellular viscosity liked to cancer spread. An international team in which the Molecular Physiology Lab at the UPF…
RT @KaustavBera11: #FluorescenceFriday #sciart Actin dynamics imaged by confocal #microscopy in a human fibroblast migrating on 2D while su…
RT @KaustavBera11: #FluorescenceFriday #sciart Actin dynamics imaged by confocal #microscopy in a human fibroblast migrating on 2D while su…
Extracellular fluid viscosity enhances cell migration and cancer dissemination https://t.co/S24TDKi310 #NCI @KaustavBera11 @SXS_biophysics @KKLabJHU @InesGodet @pmehta96 @brent_if @cdpaul16 @Anindya_SenJHU @mistrigr @GilkesLab @INBT_JHU @HopkinsEngineer @H
RT @MariaPAlcolea: Very interesting! Increased viscosity leads to mechanical memory in cancer cells promoting "invasineness" https://t.co/6…
RT @KaustavBera11: #FluorescenceFriday #sciart Actin dynamics imaged by confocal #microscopy in a human fibroblast migrating on 2D while su…
RT @KaustavBera11: #FluorescenceFriday #sciart Actin dynamics imaged by confocal #microscopy in a human fibroblast migrating on 2D while su…
#FluorescenceFriday #sciart Actin dynamics imaged by confocal #microscopy in a human fibroblast migrating on 2D while surrounded by fluids of 8 cP viscosity👻 Are you curious about the web like structures growing out ?🕸️ Answers here: https://t.co/6Ui743iQ6
RT @FrezzaLab: Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature https://t.co/C4UBUjTI0t
RT @BarbMarte: new out in Nature: https://t.co/FRmed7mwPG
RT @FrezzaLab: Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature https://t.co/C4UBUjTI0t
RT @jordigonzalezm2: Amazing! Can’t wait to read it! Congratulations to the authors!
RT @castrosebastin7: Extracellular fluid viscosity and cell migration
RT @Physiology_Lab: Extracellular viscosity liked to cancer spread. An international team in which the Molecular Physiology Lab at the UPF…
RT @Physiology_Lab: Extracellular viscosity liked to cancer spread. An international team in which the Molecular Physiology Lab at the UPF…
RT @Physiology_Lab: Extracellular viscosity liked to cancer spread. An international team in which the Molecular Physiology Lab at the UPF…
RT @BarbMarte: new out in Nature: https://t.co/FRmed7mwPG
RT @Physiology_Lab: Extracellular viscosity liked to cancer spread. An international team in which the Molecular Physiology Lab at the UPF…
RT @MariaPAlcolea: Very interesting! Increased viscosity leads to mechanical memory in cancer cells promoting "invasineness" https://t.co/6…
RT @Physiology_Lab: Extracellular viscosity liked to cancer spread. An international team in which the Molecular Physiology Lab at the UPF…
RT @AnsethGroup: Our newest postdoc, @KaustavBera11, published today in Nature — he investigated how cells respond to physiological changes…
RT @MariaPAlcolea: Very interesting! Increased viscosity leads to mechanical memory in cancer cells promoting "invasineness" https://t.co/6…
RT @Physiology_Lab: Extracellular viscosity liked to cancer spread. An international team in which the Molecular Physiology Lab at the UPF…
RT @TheOLoghlenLAB: Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature https://t.co/qQZnGMoADg