Add to ORKGEstablishment of neuronal polarity depends on local microtubule (MT) reorganization. The endoplasmic reticulum (ER) consists of cisternae and tubules and, like MTs, forms an extensive network throughout the entire cell. How the two networks interact and control neuronal development is an outstanding question. Here we show that the interplay between MTs and the ER is essential for neuronal polarity. ER tubules localize within the axon, whereas ER cisternae are retained in the somatodendritic domain. MTs are essential for axonal ER tubule stabilization, and, reciprocally, the ER is required for stabilizing and organizing axonal MTs. Recruitment of ER tubules into one minor neurite initiates axon formation, whereas ER retention in the perinucl...
The endoplasmic reticulum (ER) comprises morphologically and functionally distinct domains, sheets a...
The nervous system is the communication center of both humans and animals. It plays an essential rol...
Neuronal function relies on careful coordination of organelle organization and transport. Kinesin-1 ...
Establishment of neuronal polarity depends on local microtubule (MT) reorganization. The endoplasmic...
Microtubules have been regarded as essential structures for stable neuronal morphology but new studi...
The morphology of cells is key to their function. Neurons extend a long axon and several shorter den...
SummaryAxon formation, the initial step in establishing neuronal polarity, critically depends on loc...
Neurons are highly polarized cells with two structurally and functionally distinct compartments, axo...
Cell polarization generates morphological and functional asymmetry, and is crucial for the developme...
SummaryBackgroundBreaking cell symmetry, known as polarization, requires dynamic reorganization of m...
Cell polarization generates morphological and functional asymmetry, and is crucial for the developme...
We present a computational model to test a “polarity sorting” mechanism for microtubule (MT) organiz...
Neurons contain polarised microtubule arrays essential for neuronal function. How microtubule nuclea...
Microtubule-associated proteins (MAPs) are main candidates to stabilize neuronal microtubules, playi...
SummaryThe endoplasmic reticulum (ER) consists of tubules that are shaped by the reticulons and DP1/...
The endoplasmic reticulum (ER) comprises morphologically and functionally distinct domains, sheets a...
The nervous system is the communication center of both humans and animals. It plays an essential rol...
Neuronal function relies on careful coordination of organelle organization and transport. Kinesin-1 ...
Establishment of neuronal polarity depends on local microtubule (MT) reorganization. The endoplasmic...
Microtubules have been regarded as essential structures for stable neuronal morphology but new studi...
The morphology of cells is key to their function. Neurons extend a long axon and several shorter den...
SummaryAxon formation, the initial step in establishing neuronal polarity, critically depends on loc...
Neurons are highly polarized cells with two structurally and functionally distinct compartments, axo...
Cell polarization generates morphological and functional asymmetry, and is crucial for the developme...
SummaryBackgroundBreaking cell symmetry, known as polarization, requires dynamic reorganization of m...
Cell polarization generates morphological and functional asymmetry, and is crucial for the developme...
We present a computational model to test a “polarity sorting” mechanism for microtubule (MT) organiz...
Neurons contain polarised microtubule arrays essential for neuronal function. How microtubule nuclea...
Microtubule-associated proteins (MAPs) are main candidates to stabilize neuronal microtubules, playi...
SummaryThe endoplasmic reticulum (ER) consists of tubules that are shaped by the reticulons and DP1/...
The endoplasmic reticulum (ER) comprises morphologically and functionally distinct domains, sheets a...
The nervous system is the communication center of both humans and animals. It plays an essential rol...
Neuronal function relies on careful coordination of organelle organization and transport. Kinesin-1 ...