Journal of Experimental BotanyMar 22, 2024
'Functional characterization of calmodulin-like #proteins, CML13 and CML14, as novel light chains of #Arabidopsis class VIII #myosins' - Kyle Symonds et al.
PLOS BiologyMar 2, 2023
#RadialGlia have long basal fibers that end in basal endfeet. @LiWang_neuro & @Kriegsteinlabr explore a #PLOSBiology study showing that non-muscle #myosins control endfoot integrity to regulate interneuron organization. Primer https://plos.io/3J0mRZ5 Paper https://plos.io/3Yb599J
Non-muscle myosins control the integrity of cortical radial glial endfeet

Radial glial cells, the stem cells of the cerebral cortex, extend a long basal fiber that ends in basal endfeet. This Primer explores the implications of a new PLOS Biology study revealing that non-muscle myosins control basal endfoot integrity to regulate interneuron organization.

PLOS BiologyMar 2, 2023
#RadialGlia have long basal fibers that end in basal endfeet. @LiWang_neuro & @Kriegsteinlabr explore a #PLOSBiology study showing that non-muscle #myosins control endfoot integrity to regulate interneuron organization. Primer https://plos.io/3J0mRZ5 Paper https://plos.io/3Yb599J
Non-muscle myosins control the integrity of cortical radial glial endfeet

Radial glial cells, the stem cells of the cerebral cortex, extend a long basal fiber that ends in basal endfeet. This Primer explores the implications of a new PLOS Biology study revealing that non-muscle myosins control basal endfoot integrity to regulate interneuron organization.

PLOS BiologyMar 1, 2023
#RadialGlia have long basal fibers that end in basal endfeet. @LiWang_neuro & @Kriegsteinlabr explore a #PLOSBiology study showing that non-muscle #myosins control endfoot integrity to regulate interneuron organization. Primer https://plos.io/3J0mRZ5 Paper https://plos.io/3Yb599J
Non-muscle myosins control the integrity of cortical radial glial endfeet

Radial glial cells, the stem cells of the cerebral cortex, extend a long basal fiber that ends in basal endfeet. This Primer explores the implications of a new PLOS Biology study revealing that non-muscle myosins control basal endfoot integrity to regulate interneuron organization.