RT @SfNJournals: The Cofilin/Limk1 Pathway Controls the Growth Rate of Both Developing and Regenerating Motor Axons https://t.co/WQFRv6Gd8o
The Cofilin/Limk1 Pathway Controls the Growth Rate of Both Developing and Regenerating Motor Axons: Regenerating axons often have to grow considerable distances to reestablish circuits, making functional recovery a lengthy process. One solution to this… ht
RT @SfNJournals: The Cofilin/Limk1 Pathway Controls the Growth Rate of Both Developing and Regenerating Motor Axons https://t.co/WQFRv6Gd8o
RT @SfNJournals: The Cofilin/Limk1 Pathway Controls the Growth Rate of Both Developing and Regenerating Motor Axons https://t.co/WQFRv6Gd8o
RT @SfNJournals: The Cofilin/Limk1 Pathway Controls the Growth Rate of Both Developing and Regenerating Motor Axons https://t.co/WQFRv6Gd8o
RT @SfNJournals: The Cofilin/Limk1 Pathway Controls the Growth Rate of Both Developing and Regenerating Motor Axons https://t.co/WQFRv6Gd8o
The Cofilin/Limk1 Pathway Controls the Growth Rate of Both Developing and Regenerating Motor Axons https://t.co/WQFRv6Gd8o
"The Cofilin/Limk1 Pathway Controls the Growth Rate of Both Developing and Regenerating Motor Axons" https://t.co/ErW9bf7ACW
The cofilin/Limk1 pathway controls the growth rate of both developing and regenerating motor axons. https://t.co/465Qip4bAf
Investigadores descubren un proceso molecular que acelera la recuperación de los nervios dañados. https://t.co/0FHfxpEQAz
Proof-of-principle study ⤵️ "endogenous, shared mechanism" controls axons' development/regeneration rate ⤵️ Faster reconnection of damaged nerves with synaptic targets may "reduce painful recovery times for nerve-injury patients" #ChronicPain @SfNJournals
Identifican procesos moleculares que podrían acelerar la recuperación en lesiones nerviosas. https://t.co/wUEHRZi6x9