Rewired glycosylation activity promotes scarless regeneration and functional recovery in spiny mice after complete spinal cord transection.
Autores da FMUP
Participantes de fora da FMUP
- Nogueira Rodrigues, J
- Leite, SC
- Pinto Costa, R
- Sousa, SC
- Luz, LL
- Sintra, MA
- Oliveira, R
- Monteiro, AC
- Pinheiro, GG
- Vitorino, M
- Silva, JA
- Simao, S
- Fernandes, VE
- Provaznik, J
- Benes, V
- Safronov, BV
- Magalhaes, A
- Vieira, J
- Vieira, CP
- Tiscornia, G
- Araujo, IM
- Sousa, MM
Unidades de investigação
Abstract
Filiações
Filiações não disponíveis
Proyectos asociados
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Citar a publicação
Nogueira J,Leite SC,Pinto R,Sousa SC,Luz LL,Sintra MA,Oliveira R,Monteiro AC,Pinheiro GG,Vitorino M,Silva JA,Simao S,Fernandes VE,Provaznik J,Benes V,Cruz CD,Safronov BV,Magalhaes A,Reis CA,Vieira J,Vieira CP,Tiscornia G,Araujo IM,Sousa MM. Rewired glycosylation activity promotes scarless regeneration and functional recovery in spiny mice after complete spinal cord transection. Dev. Cell. 2022. 57. (4):p. 440-440. IF:11,800. (1).