#interneuron — Public Fediverse posts

🧠 New paper by Wimalasena, Pandarinath, AuYong et al: #spinal #interneuron populations form a low-dimensional #manifold that robustly organizes step cycles.

Distinct regions of the manifold mark flexion–extension transitions, and a specific “hold region” tightly controls cycle duration. Deletions emerge as failures to enter the flexor region, giving a dynamical signature of disrupted CPG function.

🌍 https://doi.org/10.1038/s41467-025-64629-y

#Neuroscience #Locomotion #SpinalCord #PopulationDynamics #CompNeuro

🧠 New paper by Wimalasena, Pandarinath, AuYong et al: #spinal #interneuron populations form a low-dimensional #manifold that robustly organizes step cycles.

Distinct regions of the manifold mark flexion–extension transitions, and a specific “hold region” tightly controls cycle duration. Deletions emerge as failures to enter the flexor region, giving a dynamical signature of disrupted CPG function.

🌍 https://doi.org/10.1038/s41467-025-64629-y

#Neuroscience #Locomotion #SpinalCord #PopulationDynamics #CompNeuro

🧠 New paper by Wimalasena, Pandarinath, AuYong et al: #spinal #interneuron populations form a low-dimensional #manifold that robustly organizes step cycles.

Distinct regions of the manifold mark flexion–extension transitions, and a specific “hold region” tightly controls cycle duration. Deletions emerge as failures to enter the flexor region, giving a dynamical signature of disrupted CPG function.

🌍 https://doi.org/10.1038/s41467-025-64629-y

#Neuroscience #Locomotion #SpinalCord #PopulationDynamics #CompNeuro

🧠 New paper by Wimalasena, Pandarinath, AuYong et al: #spinal #interneuron populations form a low-dimensional #manifold that robustly organizes step cycles.

Distinct regions of the manifold mark flexion–extension transitions, and a specific “hold region” tightly controls cycle duration. Deletions emerge as failures to enter the flexor region, giving a dynamical signature of disrupted CPG function.

🌍 https://doi.org/10.1038/s41467-025-64629-y

#Neuroscience #Locomotion #SpinalCord #PopulationDynamics #CompNeuro

🧠 New paper by Wimalasena, Pandarinath, AuYong et al: #spinal #interneuron populations form a low-dimensional #manifold that robustly organizes step cycles.

Distinct regions of the manifold mark flexion–extension transitions, and a specific “hold region” tightly controls cycle duration. Deletions emerge as failures to enter the flexor region, giving a dynamical signature of disrupted CPG function.

🌍 https://doi.org/10.1038/s41467-025-64629-y

#Neuroscience #Locomotion #SpinalCord #PopulationDynamics #CompNeuro

How to restore #motor function after #stroke? This study shows in mice that a combination of #RoboticRehabilitation & non-invasive gamma band #neuromodulation improves motor recovery by restoring movement-related oscillations & parvalbumin #interneuron dynamics @PLOSBiology plos.io/4n7QJng

How to restore #motor function after #stroke? This study shows in mice that a combination of #RoboticRehabilitation & non-invasive gamma band #neuromodulation improves motor recovery by restoring movement-related oscillations & parvalbumin #interneuron dynamics @PLOSBiology plos.io/4n7QJng

How to restore #motor function after #stroke? This study shows in mice that a combination of #RoboticRehabilitation & non-invasive gamma band #neuromodulation improves motor recovery by restoring movement-related oscillations & parvalbumin #interneuron dynamics @PLOSBiology plos.io/4n7QJng

How to restore #motor function after #stroke? This study shows in mice that a combination of #RoboticRehabilitation & non-invasive gamma band #neuromodulation improves motor recovery by restoring movement-related oscillations & parvalbumin #interneuron dynamics @PLOSBiology plos.io/4n7QJng

How to restore #motor function after #stroke? This study shows in mice that a combination of #RoboticRehabilitation & non-invasive gamma band #neuromodulation improves motor recovery by restoring movement-related oscillations & parvalbumin #interneuron dynamics @PLOSBiology plos.io/4n7QJng

What role does #myelination play in #PrefrontalCortex development? This study shows that juvenile #demyelination disrupts PV #interneuron firing & self-inhibition, revealing a developmental window where myelination is essential for long-term cortical function @PLOSBiology https://plos.io/4mI4lVO

What role does #myelination play in #PrefrontalCortex development? This study shows that juvenile #demyelination disrupts PV #interneuron firing & self-inhibition, revealing a developmental window where myelination is essential for long-term cortical function @PLOSBiology https://plos.io/4mI4lVO

What role does #myelination play in #PrefrontalCortex development? This study shows that juvenile #demyelination disrupts PV #interneuron firing & self-inhibition, revealing a developmental window where myelination is essential for long-term cortical function @PLOSBiology https://plos.io/4mI4lVO

What role does #myelination play in #PrefrontalCortex development? This study shows that juvenile #demyelination disrupts PV #interneuron firing & self-inhibition, revealing a developmental window where myelination is essential for long-term cortical function @PLOSBiology https://plos.io/4mI4lVO

What role does #myelination play in #PrefrontalCortex development? This study shows that juvenile #demyelination disrupts PV #interneuron firing & self-inhibition, revealing a developmental window where myelination is essential for long-term cortical function @PLOSBiology https://plos.io/4mI4lVO

How are the different aspects of interneuron development coordinated? This study shows that the #Drosophila temporal TF Hunchback promotes #interneuron molecular identity, morphology & presynapse targeting in the NB5-2 neural progenitor lineage @PLOSBiology https://plos.io/3Rt2d7d

How are the different aspects of interneuron development coordinated? This study shows that the #Drosophila temporal TF Hunchback promotes #interneuron molecular identity, morphology & presynapse targeting in the NB5-2 neural progenitor lineage @PLOSBiology https://plos.io/3Rt2d7d

How are the different aspects of interneuron development coordinated? This study shows that the #Drosophila temporal TF Hunchback promotes #interneuron molecular identity, morphology & presynapse targeting in the NB5-2 neural progenitor lineage @PLOSBiology https://plos.io/3Rt2d7d

How are the different aspects of interneuron development coordinated? This study shows that the #Drosophila temporal TF Hunchback promotes #interneuron molecular identity, morphology & presynapse targeting in the NB5-2 neural progenitor lineage @PLOSBiology https://plos.io/3Rt2d7d

How are the different aspects of interneuron development coordinated? This study shows that the #Drosophila temporal TF Hunchback promotes #interneuron molecular identity, morphology & presynapse targeting in the NB5-2 neural progenitor lineage @PLOSBiology https://plos.io/3Rt2d7d

Diversity of somatostatin #GABAergic inhibitory interneurons. Study compares anatomical & physiological properties of 2 subtypes of #somatostatin #interneuron, finding key differences that may underlie their functionalities #PLOSBiology https://plos.io/3wRTXXD

Diversity of somatostatin #GABAergic inhibitory interneurons. Study compares anatomical & physiological properties of 2 subtypes of #somatostatin #interneuron, finding key differences that may underlie their functionalities #PLOSBiology https://plos.io/3wRTXXD

Diversity of somatostatin #GABAergic inhibitory interneurons. Study compares anatomical & physiological properties of 2 subtypes of #somatostatin #interneuron, finding key differences that may underlie their functionalities #PLOSBiology https://plos.io/3wRTXXD

Diversity of somatostatin #GABAergic inhibitory interneurons. Study compares anatomical & physiological properties of 2 subtypes of #somatostatin #interneuron, finding key differences that may underlie their functionalities #PLOSBiology https://plos.io/3wRTXXD

Diversity of somatostatin #GABAergic inhibitory interneurons. Study compares anatomical & physiological properties of 2 subtypes of #somatostatin #interneuron, finding key differences that may underlie their functionalities #PLOSBiology https://plos.io/3wRTXXD

@reiver @chris_e_simpson if you are interested in #PNN you might also like www.pnnatlas.sns.it an Atlas of pnns and #parvalbumin positive #interneuron

@reiver @chris_e_simpson if you are interested in #PNN you might also like www.pnnatlas.sns.it an Atlas of pnns and #parvalbumin positive #interneuron

@reiver @chris_e_simpson if you are interested in #PNN you might also like www.pnnatlas.sns.it an Atlas of pnns and #parvalbumin positive #interneuron

@reiver @chris_e_simpson if you are interested in #PNN you might also like www.pnnatlas.sns.it an Atlas of pnns and #parvalbumin positive #interneuron

@reiver @chris_e_simpson if you are interested in #PNN you might also like www.pnnatlas.sns.it an Atlas of pnns and #parvalbumin positive #interneuron

Cerebellar #interneuron activity is triggered by reach endpoint during #learning of a complex #locomotor task – new #preprint by Andrianarivelo et al. (2023)

🌍 https://www.biorxiv.org/content/10.1101/2023.10.10.561690v2

#Neuroscience

Cerebellar #interneuron activity is triggered by reach endpoint during #learning of a complex #locomotor task – new #preprint by Andrianarivelo et al. (2023)

🌍 https://www.biorxiv.org/content/10.1101/2023.10.10.561690v2

#Neuroscience

Cerebellar #interneuron activity is triggered by reach endpoint during #learning of a complex #locomotor task – new #preprint by Andrianarivelo et al. (2023)

🌍 https://www.biorxiv.org/content/10.1101/2023.10.10.561690v2

#Neuroscience

Cerebellar #interneuron activity is triggered by reach endpoint during #learning of a complex #locomotor task – new #preprint by Andrianarivelo et al. (2023)

🌍 https://www.biorxiv.org/content/10.1101/2023.10.10.561690v2

#Neuroscience

Cerebellar #interneuron activity is triggered by reach endpoint during #learning of a complex #locomotor task – new #preprint by Andrianarivelo et al. (2023)

🌍 https://www.biorxiv.org/content/10.1101/2023.10.10.561690v2

#Neuroscience

Newest from the super talented @s_hijazi & the MCN CNCR team, out now:
https://www.nature.com/articles/s41380-023-02168-y

A great resource for all things #PV #interneuron:
-beautiful summary of PV function in health
-insightful discussion on the impact of early PV alterations & the development of #AD pathology.

Newest from the super talented @s_hijazi & the MCN CNCR team, out now:
https://www.nature.com/articles/s41380-023-02168-y

A great resource for all things #PV #interneuron:
-beautiful summary of PV function in health
-insightful discussion on the impact of early PV alterations & the development of #AD pathology.

Newest from the super talented @s_hijazi & the MCN CNCR team, out now:
https://www.nature.com/articles/s41380-023-02168-y

A great resource for all things #PV #interneuron:
-beautiful summary of PV function in health
-insightful discussion on the impact of early PV alterations & the development of #AD pathology.

Newest from the super talented @s_hijazi & the MCN CNCR team, out now:
https://www.nature.com/articles/s41380-023-02168-y

A great resource for all things #PV #interneuron:
-beautiful summary of PV function in health
-insightful discussion on the impact of early PV alterations & the development of #AD pathology.

Newest from the super talented @s_hijazi & the MCN CNCR team, out now:
https://www.nature.com/articles/s41380-023-02168-y

A great resource for all things #PV #interneuron:
-beautiful summary of PV function in health
-insightful discussion on the impact of early PV alterations & the development of #AD pathology.