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1.  Multi-site Phosphorylation of Voltage-Gated Sodium Channel α Subunits from Rat Brain 
Journal of proteome research  2010;9(4):1976-1984.
Reversible phosphorylation of ion channels underlies cellular plasticity in mammalian neurons. Voltage-gated sodium or Nav channels underlie action potential initiation and propagation, dendritic excitability, and many other aspects of neuronal excitability. Various protein kinases have been suggested to phosphorylate the primary α subunit of Nav channels, affecting diverse aspects of channel function. Previous studies of Nav α subunit phosphorylation have led to the identification of a small set of phosphorylation sites important in meditating aspects of Nav channel function. Here we use nanoflow liquid chromatography tandem mass spectrometry (nano-LC MS/MS) on Nav α subunits affinity-purified from rat brain with two distinct monoclonal antibodies to identify 15 phosphorylation sites on Nav1.2, 12 of which have not been previously reported. We also found 3 novel phosphorylation sites on Nav1.1. In general, commonly used phosphorylation site prediction algorithms did not accurately predict these novel in vivo phosphorylation sites. Our results demonstrate that specific Nav α subunits isolated from rat brain are highly phosphorylated, and suggest extensive modulation of Nav channel activity in mammalian brain. Identification of phosphorylation sites using monoclonal antibody-based immunopurification and mass spectrometry is an effective approach to define the phosphorylation status of Nav channels and important membrane proteins in mammalian brain.
doi:10.1021/pr901171q
PMCID: PMC2849892  PMID: 20131913
voltage-gated sodium channels; brain; phosphorylation; tandem mass spectrometry; immunopurification; monoclonal antibody; nanoflow liquid chromatography

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