Add to ORKGPrecise regulation of microtubule (MT) dynamics is increasingly recognized as a critical determinant of axon regeneration. In contrast to developing neurons, mature axons exhibit noncentrosomal microtubule nucleation. The factors regulating noncentrosomal MT architecture in axon regeneration remain poorly understood. We report that PTRN-1, the C. elegans member of the Patronin/Nezha/calmodulin- and spectrin-associated protein (CAMSAP) family of microtubule minus-end-binding proteins, is critical for efficient axon regeneration in vivo. ptrn-1-null mutants display generally normal developmental axon outgrowth but significantly impaired regenerative regrowth after laser axotomy. Unexpectedly, mature axons in ptrn-1 mutants display elevated nu...
pre-printAxons of the mammalian CNS lose the ability to regenerate soon after development due to bot...
SummaryThe mechanisms underlying the ability of axons to regrow after injury remain poorly explored ...
The role of mitochondria within injured neurons is an area of active interest since these organelles...
SummaryPrecise regulation of microtubule (MT) dynamics is increasingly recognized as a critical dete...
The capacity of an axon to regenerate is regulated by its external environment and by cell-intrinsic...
The capacity of an axon to regenerate is regulated by its external environment and by cell-intrinsic...
The microtubule (MT) arrays in mature polarized cells comprise mostly of non-centrosomal MTs; their ...
Axon injury triggers a series of changes in the axonal cytoskeleton that are prerequisites for effec...
Axons of the mammalian CNS lose the ability to regenerate soon after development due to both an inhi...
The mechanisms underlying axon regeneration in mature neurons are relevant to the understanding of n...
Microtubules have been known for decades to be basic elements of the cytoskeleton. They form long, d...
cnd-1(ju29) mutants contain a novel ptrn-1 allele that was discovered in the cnd-1 mutant strain rec...
A striking neuronal connectivity change in C. elegans involves the coordinated elimination of e...
Regulation of microtubule dynamics underlies many fundamental cellular mechanisms including cell div...
The ability of specific neurons to regenerate their axons after injury is governed by cell-intrinsic...
pre-printAxons of the mammalian CNS lose the ability to regenerate soon after development due to bot...
SummaryThe mechanisms underlying the ability of axons to regrow after injury remain poorly explored ...
The role of mitochondria within injured neurons is an area of active interest since these organelles...
SummaryPrecise regulation of microtubule (MT) dynamics is increasingly recognized as a critical dete...
The capacity of an axon to regenerate is regulated by its external environment and by cell-intrinsic...
The capacity of an axon to regenerate is regulated by its external environment and by cell-intrinsic...
The microtubule (MT) arrays in mature polarized cells comprise mostly of non-centrosomal MTs; their ...
Axon injury triggers a series of changes in the axonal cytoskeleton that are prerequisites for effec...
Axons of the mammalian CNS lose the ability to regenerate soon after development due to both an inhi...
The mechanisms underlying axon regeneration in mature neurons are relevant to the understanding of n...
Microtubules have been known for decades to be basic elements of the cytoskeleton. They form long, d...
cnd-1(ju29) mutants contain a novel ptrn-1 allele that was discovered in the cnd-1 mutant strain rec...
A striking neuronal connectivity change in C. elegans involves the coordinated elimination of e...
Regulation of microtubule dynamics underlies many fundamental cellular mechanisms including cell div...
The ability of specific neurons to regenerate their axons after injury is governed by cell-intrinsic...
pre-printAxons of the mammalian CNS lose the ability to regenerate soon after development due to bot...
SummaryThe mechanisms underlying the ability of axons to regrow after injury remain poorly explored ...
The role of mitochondria within injured neurons is an area of active interest since these organelles...