#biointerface — Public Fediverse posts

Dynamic bio-interface between mussel tissue and byssus plays important role in quick release https://phys.org/news/2023-11-dynamic-bio-interface-mussel-tissue-byssus.html

A strong quick-release #biointerface in mussels mediated by serotonergic cilia-based adhesion https://www.science.org/doi/10.1126/science.adi7401

"#Mussels use #byssus threads (known commonly as a beard) to attach themselves to solid objects such as rocks. The #mussel byssus has been extensively studied due to their unique ability to connect nonliving material to living tissue and to disconnect on demand."

Dynamic bio-interface between mussel tissue and byssus plays important role in quick release https://phys.org/news/2023-11-dynamic-bio-interface-mussel-tissue-byssus.html

A strong quick-release #biointerface in mussels mediated by serotonergic cilia-based adhesion https://www.science.org/doi/10.1126/science.adi7401

"#Mussels use #byssus threads (known commonly as a beard) to attach themselves to solid objects such as rocks. The #mussel byssus has been extensively studied due to their unique ability to connect nonliving material to living tissue and to disconnect on demand."

Dynamic bio-interface between mussel tissue and byssus plays important role in quick release https://phys.org/news/2023-11-dynamic-bio-interface-mussel-tissue-byssus.html

A strong quick-release #biointerface in mussels mediated by serotonergic cilia-based adhesion https://www.science.org/doi/10.1126/science.adi7401

"#Mussels use #byssus threads (known commonly as a beard) to attach themselves to solid objects such as rocks. The #mussel byssus has been extensively studied due to their unique ability to connect nonliving material to living tissue and to disconnect on demand."

Dynamic bio-interface between mussel tissue and byssus plays important role in quick release https://phys.org/news/2023-11-dynamic-bio-interface-mussel-tissue-byssus.html

A strong quick-release #biointerface in mussels mediated by serotonergic cilia-based adhesion https://www.science.org/doi/10.1126/science.adi7401

"#Mussels use #byssus threads (known commonly as a beard) to attach themselves to solid objects such as rocks. The #mussel byssus has been extensively studied due to their unique ability to connect nonliving material to living tissue and to disconnect on demand."

Dynamic bio-interface between mussel tissue and byssus plays important role in quick release https://phys.org/news/2023-11-dynamic-bio-interface-mussel-tissue-byssus.html

A strong quick-release #biointerface in mussels mediated by serotonergic cilia-based adhesion https://www.science.org/doi/10.1126/science.adi7401

"#Mussels use #byssus threads (known commonly as a beard) to attach themselves to solid objects such as rocks. The #mussel byssus has been extensively studied due to their unique ability to connect nonliving material to living tissue and to disconnect on demand."

"The sheet surfaces are in intimate adhesive contact with billions of motile epithelial #cilia that control #biointerface strength and stem release through their collective movement, which is regulated neurochemically. We posit that this may involve a complex sensory pathway by which sessile #mussels respond to environmental stresses to release and relocate."

https://www.science.org/doi/10.1126/science.adi7401

"The sheet surfaces are in intimate adhesive contact with billions of motile epithelial #cilia that control #biointerface strength and stem release through their collective movement, which is regulated neurochemically. We posit that this may involve a complex sensory pathway by which sessile #mussels respond to environmental stresses to release and relocate."

https://www.science.org/doi/10.1126/science.adi7401

"The sheet surfaces are in intimate adhesive contact with billions of motile epithelial #cilia that control #biointerface strength and stem release through their collective movement, which is regulated neurochemically. We posit that this may involve a complex sensory pathway by which sessile #mussels respond to environmental stresses to release and relocate."

https://www.science.org/doi/10.1126/science.adi7401

"The sheet surfaces are in intimate adhesive contact with billions of motile epithelial #cilia that control #biointerface strength and stem release through their collective movement, which is regulated neurochemically. We posit that this may involve a complex sensory pathway by which sessile #mussels respond to environmental stresses to release and relocate."

https://www.science.org/doi/10.1126/science.adi7401

"The sheet surfaces are in intimate adhesive contact with billions of motile epithelial #cilia that control #biointerface strength and stem release through their collective movement, which is regulated neurochemically. We posit that this may involve a complex sensory pathway by which sessile #mussels respond to environmental stresses to release and relocate."

https://www.science.org/doi/10.1126/science.adi7401

Postdoctoral Fellow - Mechanobiology

CNRS

Come join us in the #BioInterface group as a postdoc to work on #curvature sensing mechanisms

See the full job description on jobRxiv: https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=55711

#ScienceJobs #hiring #research #mechanobiology, #postdoc
Mulhouse #France #PostdoctoralFellow
https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=55711

Postdoctoral Fellow - Mechanobiology

CNRS

Come join us in the #BioInterface group as a postdoc to work on #curvature sensing mechanisms

See the full job description on jobRxiv: https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=55711

#ScienceJobs #hiring #research #mechanobiology, #postdoc
Mulhouse #France #PostdoctoralFellow
https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=55711

Postdoctoral Fellow - Mechanobiology

CNRS

Come join us in the #BioInterface group as a postdoc to work on #curvature sensing mechanisms

See the full job description on jobRxiv: https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=55711

#ScienceJobs #hiring #research #mechanobiology, #postdoc
Mulhouse #France #PostdoctoralFellow
https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=55711

Postdoctoral Fellow - Mechanobiology

CNRS

Come join us in the #BioInterface group as a postdoc to work on #curvature sensing mechanisms

See the full job description on jobRxiv: https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=55711

#ScienceJobs #hiring #research #mechanobiology, #postdoc
Mulhouse #France #PostdoctoralFellow
https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=55711

Postdoctoral Fellow - Mechanobiology

CNRS

Come join us in the #BioInterface group as a postdoc to work on #curvature sensing mechanisms

See the full job description on jobRxiv: https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=55711

#ScienceJobs #hiring #research #mechanobiology, #postdoc
Mulhouse #France #PostdoctoralFellow
https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=55711

Postdoctoral Fellow - Mechanobiology

CNRS

Come join us in the #BioInterface group as a postdoc to work on #curvature sensing mechanisms

See the full job description on jobRxiv: https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=52688

#ScienceJobs #hiring #research #mechanobiology, #postdoc
Mulhouse #France #PostdoctoralFellow
https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=52688

Postdoctoral Fellow - Mechanobiology

CNRS

Come join us in the #BioInterface group as a postdoc to work on #curvature sensing mechanisms

See the full job description on jobRxiv: https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=52688

#ScienceJobs #hiring #research #mechanobiology, #postdoc
Mulhouse #France #PostdoctoralFellow
https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=52688

Postdoctoral Fellow - Mechanobiology

CNRS

Come join us in the #BioInterface group as a postdoc to work on #curvature sensing mechanisms

See the full job description on jobRxiv: https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=52688

#ScienceJobs #hiring #research #mechanobiology, #postdoc
Mulhouse #France #PostdoctoralFellow
https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=52688

Postdoctoral Fellow - Mechanobiology

CNRS

Come join us in the #BioInterface group as a postdoc to work on #curvature sensing mechanisms

See the full job description on jobRxiv: https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=52688

#ScienceJobs #hiring #research #mechanobiology, #postdoc
Mulhouse #France #PostdoctoralFellow
https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=52688

Postdoctoral Fellow - Mechanobiology

CNRS

Come join us in the #BioInterface group as a postdoc to work on #curvature sensing mechanisms

See the full job description on jobRxiv: https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=52688

#ScienceJobs #hiring #research #mechanobiology, #postdoc
Mulhouse #France #PostdoctoralFellow
https://jobrxiv.org/job/cnrs-27778-postdoctoral-fellow-mechanobiology/?feed_id=52688

Next week: Come explore our groundbreaking 3D microchips at #ISSCR2023 in Boston, USA!

No matter if #iPSC, primary neurons, or brain #organoids, @3Brain's #biointerface technology is revolutionizing neuroscience and advancing #stem cell research.

#drugdiscovery #screening

Next week: Come explore our groundbreaking 3D microchips at #ISSCR2023 in Boston, USA!

No matter if #iPSC, primary neurons, or brain #organoids, @3Brain's #biointerface technology is revolutionizing neuroscience and advancing #stem cell research.

#drugdiscovery #screening

Chen et al. report about #LARAs, a new #astrocyte subtype with excessive lipid accumulation, driving #epilepsy progression. Using @3Brain's high-res #biointerface tech, they probe how APOE4 polymorphism influences #epileptiform electrical #activities.
➡️ https://www.nature.com/articles/s41593-023-01288-6

Chen et al. report about #LARAs, a new #astrocyte subtype with excessive lipid accumulation, driving #epilepsy progression. Using @3Brain's high-res #biointerface tech, they probe how APOE4 polymorphism influences #epileptiform electrical #activities.
➡️ https://www.nature.com/articles/s41593-023-01288-6

Using @3Brain's high-resolution #biointerface technology, Monteverdi et al. unveiled a significant frequency dependence and spatial #anisotropy in cerebellar network processing, expanding our current understanding of these complex #circuits.
#cerebellum
https://www.mdpi.com/2227-9059/11/5/1475

Using @3Brain's high-resolution #biointerface technology, Monteverdi et al. unveiled a significant frequency dependence and spatial #anisotropy in cerebellar network processing, expanding our current understanding of these complex #circuits.
#cerebellum
https://www.mdpi.com/2227-9059/11/5/1475

Giasante et al. found PCDH19-negative hyperexcitable neurons and global reduction in #network activity, offering new insights into this complex #neurodevelopmental disorder.
Aided by 3Brain’s high-resolution #biointerface technology!
Check out:
https://www.nature.com/articles/s41380-023-02022-1

Giasante et al. found PCDH19-negative hyperexcitable neurons and global reduction in #network activity, offering new insights into this complex #neurodevelopmental disorder.
Aided by 3Brain’s high-resolution #biointerface technology!
Check out:
https://www.nature.com/articles/s41380-023-02022-1

Exciting news!

@3Brain's @DenizPhd will soon come to Canada! We'll be showcasing our innovative high-density 3D #biointerface technology, a game-changer in neural complexity research.

Can't wait to connect at the 16th @CAN_ACN conference!
#3Brain #BrainTech #

Exciting news!

@3Brain's @DenizPhd will soon come to Canada! We'll be showcasing our innovative high-density 3D #biointerface technology, a game-changer in neural complexity research.

Can't wait to connect at the 16th @CAN_ACN conference!
#3Brain #BrainTech #

Unraveling epilepsy mysteries w/ @3Brain's cutting-edge #biointerface tech! 🧠🌀

A study by Boucher-Routhier et al. ⬇️ used #GANs to analyze rare #spiral wave activity in cortical networks, key to understanding epilepsy.

Our high-res #microchip tech enabled detailed monitoring, paving the way for new treatment insights! 🚀🔬 #seizure #neuralcomplexity

Please read:
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10039524/

Unraveling epilepsy mysteries w/ @3Brain's cutting-edge #biointerface tech! 🧠🌀

A study by Boucher-Routhier et al. ⬇️ used #GANs to analyze rare #spiral wave activity in cortical networks, key to understanding epilepsy.

Our high-res #microchip tech enabled detailed monitoring, paving the way for new treatment insights! 🚀🔬 #seizure #neuralcomplexity

Please read:
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10039524/

How to rapidly screen for #neuromodulating compounds?

Free cultured cortical #spheroids 🧠 offer quick control over cell composition & functional testing

➡️ Coupled with @3Brain's #biointerface tech for drug screening & disease modeling 🔬
#stemcells

https://buff.ly/41GkEZl

How to rapidly screen for #neuromodulating compounds?

Free cultured cortical #spheroids 🧠 offer quick control over cell composition & functional testing

➡️ Coupled with @3Brain's #biointerface tech for drug screening & disease modeling 🔬
#stemcells

https://buff.ly/41GkEZl

Can #exosomes from #nasal fluid be used as diagnostic tool for #Alzheimer's disease?

Check out the wonderfully creative pre-print use of our high-resolution #biointerface technology from Sang Seong Kim and colleagues from Hanyang University:
https://www.biorxiv.org/content/10.1101/2023.01.24.525465v1
#biomarkers

Can #exosomes from #nasal fluid be used as diagnostic tool for #Alzheimer's disease?

Check out the wonderfully creative pre-print use of our high-resolution #biointerface technology from Sang Seong Kim and colleagues from Hanyang University:
https://www.biorxiv.org/content/10.1101/2023.01.24.525465v1
#biomarkers

What #functional perturbations drive #neurodegenerative disease?

Meet us at #ADPD23 to see how our first-in-class 3D chip can grant unparalleled access to the #microcircuitry of your in vitro/ex vivo model systems & yield novel #biological insights.

#biointerface #organoids #alzheimer #parkinson #epilepsy #stemcells

What #functional perturbations drive #neurodegenerative disease?

Meet us at #ADPD23 to see how our first-in-class 3D chip can grant unparalleled access to the #microcircuitry of your in vitro/ex vivo model systems & yield novel #biological insights.

#biointerface #organoids #alzheimer #parkinson #epilepsy #stemcells

What #functional perturbations drive #neurodegenerative disease?

Meet us at #ADPD23 to see how our first-in-class 3D chip can grant unparalleled access to the #microcircuitry of your in vitro/ex vivo model systems & yield novel #biological insights.

#biointerface #organoids #alzheimer #parkinson #epilepsy #stemcells

What #functional perturbations drive #neurodegenerative disease?

Meet us at #ADPD23 to see how our first-in-class 3D chip can grant unparalleled access to the #microcircuitry of your in vitro/ex vivo model systems & yield novel #biological insights.

#biointerface #organoids #alzheimer #parkinson #epilepsy #stemcells

What #functional perturbations drive #neurodegenerative disease?

Meet us at #ADPD23 to see how our first-in-class 3D chip can grant unparalleled access to the #microcircuitry of your in vitro/ex vivo model systems & yield novel #biological insights.

#biointerface #organoids #alzheimer #parkinson #epilepsy #stemcells

Our @3Brain representatives are busy at #SLAS23 to showcase our 3D #biointerface technology 😃

It's a great opportunity to listen in on how to interrogate the activity of #intelligent cellular #networks!

Come and pay a visit to Booth #830 too!

Our @3Brain representatives are busy at #SLAS23 to showcase our 3D #biointerface technology 😃

It's a great opportunity to listen in on how to interrogate the activity of #intelligent cellular #networks!

Come and pay a visit to Booth #830 too!

Hey San Diego!

If you are not at #SLAS23 next week to visit our booth, you definitely should not miss Mike Hildebrand's amazing talk about investigating novel #mechanisms of #pain at the #translationalresearch conference using @3Brain's #biointerface technology.

Hey San Diego!

If you are not at #SLAS23 next week to visit our booth, you definitely should not miss Mike Hildebrand's amazing talk about investigating novel #mechanisms of #pain at the #translationalresearch conference using @3Brain's #biointerface technology.

What is the role of hybrid and #biointerface technologies in biological research?

In the latest #3Brain explorer series, we take the occation of the MG-Award 2022 to reflect a bit about the past, present and #future of connecting #electronics to #cellular networks.

We also have a brillant #interview with this years winner, a project on the mysterious role of pseudo-#synapses in promoting #glioblastoma progression.

Please give it a read:
➡️ https://www.3brain.com/explorer-series/the-massimo-grattarola-award

#biointerface #neuroscience