Key role of SMN/SYNCRIP and RNA-Motif 7 in spinal muscular atrophy: RNA-Seq and motif analysis of human motor neurons

F. Rizzo; M. Nizzardo; S. Vashisht; E. Molteni; V. Melzi; M. Taiana; S. Salani; P. Santonicola; E. Di Schiavi; M. Bucchia; A. Bordoni; I. Faravelli; N. Bresolin; G.P. Comi; U. Pozzoli; S. Corti

doi:10.1093/brain/awy330

Key role of SMN/SYNCRIP and RNA-Motif 7 in spinal muscular atrophy: RNA-Seq and motif analysis of human motor neurons

F. Rizzo, M. Nizzardo, S. Vashisht, E. Molteni, V. Melzi, M. Taiana, S. Salani, P. Santonicola, E. Di Schiavi, M. Bucchia, A. Bordoni, I. Faravelli, N. Bresolin, G.P. Comi, U. Pozzoli, S. Corti

Research output: Contribution to journal › Article › peer-review

Original language	English
Pages (from-to)	276-294
Number of pages	19
Journal	Brain
Volume	142
Issue number	2
DOIs	https://doi.org/10.1093/brain/awy330
Publication status	Published - 2019

Keywords

motor neurons
NRXN2
RNA sequencing
SMN1
SYNCRIP
bovine serum albumin
brain derived neurotrophic factor
cellular retinoic acid binding protein 1
chondrolectin
heat shock protein
heterogeneous nuclear ribonucleoprotein c like 1
heterogeneous nuclear ribonucleoprotein group C
insulin receptor substrate
muscle blind like protein 1
neurexin
neurexin 2
neurite promoting factor
potassium channel
potassium channel Kv1.3
protein
proteinase K
proteolipid protein
proteolipid protein 1
retinoic acid binding protein
RNA
RNA binding motif protein 47
RNA binding protein
RNA methyltransferase
RNA motif 7
somatomedin C
stathmin
stathmin 2
survival motor neuron protein
synaptotagmin
syncrip protein
unclassified drug
alternative RNA splicing
animal experiment
animal model
Article
axon guidance
Caenorhabditis elegans
cell differentiation
cell survival
controlled study
gene expression
gene overexpression
human
human cell
induced pluripotent stem cell
motoneuron
mouse
nonhuman
priority journal
protein function
RNA sequence
RNA splicing
RNA-binding domain
spinal muscular atrophy
upregulation

Access to Document

10.1093/brain/awy330

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85060804071&doi=10.1093%2fbrain%2fawy330&partnerID=40&md5=178635b5ae83e2151c3e95ea8ee5bd7a

Cite this

Rizzo, F., Nizzardo, M., Vashisht, S., Molteni, E., Melzi, V., Taiana, M., Salani, S., Santonicola, P., Di Schiavi, E., Bucchia, M., Bordoni, A., Faravelli, I., Bresolin, N., Comi, G. P., Pozzoli, U., & Corti, S. (2019). Key role of SMN/SYNCRIP and RNA-Motif 7 in spinal muscular atrophy: RNA-Seq and motif analysis of human motor neurons. Brain, 142(2), 276-294. https://doi.org/10.1093/brain/awy330

Key role of SMN/SYNCRIP and RNA-Motif 7 in spinal muscular atrophy: RNA-Seq and motif analysis of human motor neurons. / Rizzo, F.; Nizzardo, M.; Vashisht, S.; Molteni, E.; Melzi, V.; Taiana, M.; Salani, S.; Santonicola, P.; Di Schiavi, E.; Bucchia, M.; Bordoni, A.; Faravelli, I.; Bresolin, N.; Comi, G.P.; Pozzoli, U.; Corti, S.

In: Brain, Vol. 142, No. 2, 2019, p. 276-294.

Research output: Contribution to journal › Article › peer-review

Rizzo, F, Nizzardo, M, Vashisht, S, Molteni, E, Melzi, V, Taiana, M, Salani, S, Santonicola, P, Di Schiavi, E, Bucchia, M, Bordoni, A, Faravelli, I, Bresolin, N , Comi, GP , Pozzoli, U & Corti, S 2019, 'Key role of SMN/SYNCRIP and RNA-Motif 7 in spinal muscular atrophy: RNA-Seq and motif analysis of human motor neurons', Brain, vol. 142, no. 2, pp. 276-294. https://doi.org/10.1093/brain/awy330

Rizzo, F. ; Nizzardo, M. ; Vashisht, S. ; Molteni, E. ; Melzi, V. ; Taiana, M. ; Salani, S. ; Santonicola, P. ; Di Schiavi, E. ; Bucchia, M. ; Bordoni, A. ; Faravelli, I. ; Bresolin, N. ; Comi, G.P. ; Pozzoli, U. ; Corti, S. / Key role of SMN/SYNCRIP and RNA-Motif 7 in spinal muscular atrophy: RNA-Seq and motif analysis of human motor neurons. In: Brain. 2019 ; Vol. 142, No. 2. pp. 276-294.

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keywords = "motor neurons, NRXN2, RNA sequencing, SMN1, SYNCRIP, bovine serum albumin, brain derived neurotrophic factor, cellular retinoic acid binding protein 1, chondrolectin, heat shock protein, heterogeneous nuclear ribonucleoprotein c like 1, heterogeneous nuclear ribonucleoprotein group C, insulin receptor substrate, muscle blind like protein 1, neurexin, neurexin 2, neurite promoting factor, potassium channel, potassium channel Kv1.3, protein, proteinase K, proteolipid protein, proteolipid protein 1, retinoic acid binding protein, RNA, RNA binding motif protein 47, RNA binding protein, RNA methyltransferase, RNA motif 7, somatomedin C, stathmin, stathmin 2, survival motor neuron protein, synaptotagmin, syncrip protein, unclassified drug, alternative RNA splicing, animal experiment, animal model, Article, axon guidance, Caenorhabditis elegans, cell differentiation, cell survival, controlled study, gene expression, gene overexpression, human, human cell, induced pluripotent stem cell, motoneuron, mouse, nonhuman, priority journal, protein function, RNA sequence, RNA splicing, RNA-binding domain, spinal muscular atrophy, upregulation",

author = "F. Rizzo and M. Nizzardo and S. Vashisht and E. Molteni and V. Melzi and M. Taiana and S. Salani and P. Santonicola and {Di Schiavi}, E. and M. Bucchia and A. Bordoni and I. Faravelli and N. Bresolin and G.P. Comi and U. Pozzoli and S. Corti",

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