Publications

Showing 7 of 7 Publications

2021

The NaVy paradox: reducing sodium currents increases excitability
Kaczmarek LK. The NaVy paradox: reducing sodium currents increases excitability. Trends In Neurosciences 2021, 44: 767-768. PMID: 34373125, PMCID: PMC8813127, DOI: 10.1016/j.tins.2021.07.008.
Peer-Reviewed Original Research
MeSH Keywords and Concepts
A KCNC1 mutation in epilepsy of infancy with focal migrating seizures produces functional channels that fail to be regulated by PKC phosphorylation
Zhang Y, Ali SR, Nabbout R, Barcia G, Kaczmarek LK. A KCNC1 mutation in epilepsy of infancy with focal migrating seizures produces functional channels that fail to be regulated by PKC phosphorylation. Journal Of Neurophysiology 2021, 126: 532-539. PMID: 34232791, PMCID: PMC8409950, DOI: 10.1152/jn.00257.2021.
Peer-Reviewed Original Research
MeSH Keywords and Concepts

2019

An Epilepsy-Associated KCNT1 Mutation Enhances Excitability of Human iPSC-Derived Neurons by Increasing Slack KNa Currents
Quraishi IH, Stern S, Mangan KP, Zhang Y, Ali SR, Mercier MR, Marchetto MC, McLachlan MJ, Jones EM, Gage FH, Kaczmarek LK. An Epilepsy-Associated KCNT1 Mutation Enhances Excitability of Human iPSC-Derived Neurons by Increasing Slack KNa Currents. Journal Of Neuroscience 2019, 39: 7438-7449. PMID: 31350261, PMCID: PMC6759030, DOI: 10.1523/jneurosci.1628-18.2019.
Peer-Reviewed Original Research
MeSH Keywords and Concepts

2014

2003

BAK Alters Neuronal Excitability and Can Switch from Anti- to Pro-Death Function during Postnatal Development
Fannjiang Y, Kim CH, Huganir RL, Zou S, Lindsten T, Thompson CB, Mito T, Traystman RJ, Larsen T, Griffin DE, Mandir AS, Dawson TM, Dike S, Sappington AL, Kerr DA, Jonas EA, Kaczmarek LK, Hardwick JM. BAK Alters Neuronal Excitability and Can Switch from Anti- to Pro-Death Function during Postnatal Development. Developmental Cell 2003, 4: 575-585. PMID: 12689595, DOI: 10.1016/s1534-5807(03)00091-1.
Peer-Reviewed Original Research
MeSH Keywords and Concepts

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