Anti-Nav1.6 Na+ Channel Antibody (K87A/10)
Our Anti-Nav1.6 Na+ channel mouse monoclonal primary antibody from NeuroMab is produced in-house from hybridoma clone K87A/10. It is KO validated, detects human, mouse, and rat Nav1.6 Na+ channel, and is purified by Protein A chromatography. It is great for use in IHC, ICC, IP, WB.
Adult rat optic nerve immunofluorescence staining K87A/10=red Rabbit anti-Caspr=green Image courtesy of Dr. Matthew Rasband (Baylor College of Medicine).
Click on image to zoom
Human, Mouse, Rat
ELISA, ICC, IHC, IP
Mouse
KO Validated
Ships: 1-2 business days
Product Specific References for Applications and Species
- Immunocytochemistry: Human | Mouse | Rat
- Immunohistochemistry: Feline | Human | Mouse | Rat
- Western Blot: Mouse
- Additional Publications: Unspecified
| Immunocytochemistry: Human | ||
| PMID | Dilution | Publication |
| 26985738 | 1:200 | González-Burguera, I., et al. 2016. Highly efficient generation of glutamatergic/cholinergic NT2-derived postmitotic human neurons by short-term treatment with the nucleoside analogue cytosine β-D-arabinofuranoside. . Stem cell research, 541-551. |
| Immunocytochemistry: Mouse | ||
| PMID | Dilution | Publication |
| 32375064 | not listed | Weinstock, N.I., et al. 2020. Macrophages expressing GALC improve peripheral Krabbe disease by a mechanism independent of cross-correction.. Neuron, 65-81. |
| 30796290 | 1:300 | Reijntjes, D.O., et al. 2019. Sodium-activated potassium channels shape peripheral auditory function and activity of the primary auditory neurons in mice. . Scientific reports, 1-18. |
| 28091722 | 1:200 | Hatch, R.J., et al. 2017. Hyperphosphorylated tau causes reduced hippocampal CA1 excitability by relocating the axon initial segment.. Acta neuropathologica, 717-730. |
| 20888080 | 1:500 | Shepherd, M.N., et al. 2012. Paranodal reorganization results in the depletion of transverse bands in the aged central nervous system.. Neurobiology of Aging, 203-e13. |
| 20861468 | 1:150 | Tong, M., et al. 2010. The intrinsic electrophysiological properties of neurons derived from mouse embryonic stem cells overexpressing neurogenin-1.. American Journal of Physiology-Cell Physiology, C1335-C1344. |
| 20133873 | 1:100 | Brackenbury, W.J., et al. 2010. Functional reciprocity between Na+ channel Nav1. 6 and ß1 subunits in the coordinated regulation of excitability and neurite outgrowth. . Proceedings of the National Academy of Sciences, 2283-2288. |
| 19261867 | 1:100 | Sharkey, L.M., et al. 2009. The ataxia3 mutation in the N-terminal cytoplasmic domain of sodium channel Na(v)1.6 disrupts intracellular trafficking.. Journal of Neuroscience, 2733-2741. |
| 19013247 | 1:200 | O'Malley, H.A., et al. 2009. Loss of Na+ channel ß2 subunits is neuroprotective in a mouse model of multiple sclerosis. . Molecular and Cellular Neuroscience, 143-155. |
| Immunocytochemistry: Rat | ||
| PMID | Dilution | Publication |
| 26408173 | 1:200 | Barbosa, C., et al. 2015. Navß4 regulates fast resurgent sodium currents and excitability in sensory neurons.. Molecular Pain, s12990-015. |
| 22885108 | 1:100 | Devaux, J.J., et al. 2012. Antibodies to gliomedin cause peripheral demyelinating neuropathy and the dismantling of the nodes of Ranvier.. The American Journal of Pathology, 1402-1413. |
| Immunohistochemistry: Feline | ||
| PMID | Dilution | Publication |
| 21543602 | 1:100 | Meehan, C.F., et al. 2011. Dendrite-derived supernumerary axons on adult axotomized motor neurons possess proteins that are essential for the initiation and propagation of action potentials and synaptic vesicle release.. Journal of Neuroscience, 6732-6740. |
| Immunohistochemistry: Human | ||
| PMID | Dilution | Publication |
| 20838243 | not listed | Howell, O.W., et al. 2010. Activated microglia mediate axoglial disruption that contributes to axonal injury in multiple sclerosis.. Journal of Neuropathology & Experimental Neurology, 1017-1033. |
| Immunohistochemistry: Mouse | ||
| PMID | Dilution | Publication |
| 39093969 | 1:100 | Zhao, R, et al. 2024. Axo-axonic synaptic input drives homeostatic plasticity by tuning the axon initial segment structurally and functionally. Science Advances, eadk4331. |
| 37283058 | 1:250 | Dustin, E, et al. 2023. Adult-onset Depletion of Sulfatide Leads to Axonal Degeneration with Relative Myelin Sparing. Glia, 2285-2303. |
| 36849716 | 1:100 | Hu, A., et al. 2023. Projection-Specific Heterogeneity of the Axon Initial Segment of Pyramidal Neurons in the Prelimbic Cortex. Neuroscience Bulletin, . |
| 35163623 | 1:300 | Marosi, M., et al. 2022. Inhibition of the Akt/PKB Kinase Increases Nav1.6-Mediated Currents and Neuronal Excitability in CA1 Hippocampal Pyramidal Neurons. International journal of molecular sciences, 1700. |
| 34825395 | 1:100 | Newville, J., et al. 2020. Persistent myelin abnormalities in a third trimester‐equivalent mouse model of fetal alcohol spectrum disorder. . Alcoholism: Clinical and Experimental Research, 77-86. |
| 32142125 | not listed | Kawamura, A., et al. 2020. Oligodendrocyte dysfunction due to Chd8 mutation gives rise to behavioral deficits in mice.. Human molecular genetics, 1274-1291. |
| 31933626 | 1:300 | Alshammari, M.A., et al. 2019. Changes in the Fluorescence Tracking of NaV1.6 Protein Expression in a BTBR T+Itpr3tf/J Autistic Mouse Model. Neural Plasticity, 4893103. |
| 30125271 | not listed | Nunes, D., et al. 2018. Axonal sodium channel NaV1. 2 drives granule cell dendritic GABA release and rapid odor discrimination. . PLoS biology, e2003816. |
| 28595650 | 1:200 | Benusa, S.D., et al. 2017. Acute neuroinflammation induces AIS structural plasticity in a NOX2-dependent manner. . Journal of neuroinflammation, 1-14. |
| 28355569 | 1:5 (supe) | Morelli, K.H., et al. 2017. Severity of demyelinating and axonal neuropathy mouse models is modified by genes affecting structure and function of peripheral nodes. . Cell reports, 3178-3191. |
| 28283581 | 1:500 | Satake, T., et al. 2017. MTCL1 plays an essential role in maintaining Purkinje neuron axon initial segme. The EMBO journal, 1227-1242. |
| 27629714 | 1:100 | Kim, S., et al. 2016. Schwann cell O-GlcNAc glycosylation is required for myelin maintenance and axon integrity.. Journal of Neuroscience, 9633-9646. |
| 27581456 | not listed | Marin, M.A., et al. 2016. Reassembly of excitable domains after CNS axon regeneration.. Journal of Neuroscience, 9148-9160. |
| 26909021 | 1:300 | Alshammari, M.A., et al. 2016. Improved methods for fluorescence microscopy detection of macromolecules at the axon initial segment. . Frontiers in cellular neuroscience, 5. |
| 26807988 | 1:200 | Jones, J.M., et al. 2016. Single amino acid deletion in transmembrane segment D4S6 of sodium channel Scn8a (Nav1. 6) in a mouse mutant with a chronic movement disorder.. Neurobiology of disease, 36-45. |
| 25653382 | not listed | Baalman, K., et al. 2015. Axon initial segment-associated microglia.. Journal of Neuroscience, 2283-2292. |
| 25362471 | not listed | Chang, K.J., et al. 2014. Glial ankyrins facilitate paranodal axoglial junction assembly.. Nature Neuroscience, 1673-81. |
| 23891806 | 1:1000 | Xiao, M., et al. 2013. FGF14 localization and organization of the axon initial segment. . Molecular and Cellular Neuroscience, 393-403. |
| 23864679 | 1:200 | Ruff, C.A., et al. 2013. Effects of adult neural precursor-derived myelination on axonal function in the perinatal congenitally dysmyelinated brain: optimizing time of intervention, developing accurate prediction models, and enhancing performance.. Journal of Neuroscience, 11899-11915. |
| 23090952 | 1:250 | Sun, W., et al. 2013. Aberrant sodium channel activity in the complex seizure disorder of Celf4 mutant mice.. The Journal of Physiology, 241-255. |
| 22492029 | not listed | Buttermore, E.D., et al. 2012. Pinceau organization in the cerebellum requires distinct functions of neurofascin in Purkinje and basket neurons during postnatal development.. Journal of Neuroscience, 4724-4742. |
| 21958379 | not listed | Duflocq, A., et al. 2011. Characterization of the axon initial segment (AIS) of motor neurons and identification of a para-AIS and a juxtapara-AIS, organized by protein 4.1B.. BMC Biology, 1-19. |
| 21525278 | 1:100 | Binder, E., et al. 2011. Peripheral nervous system progenitors can be reprogrammed to produce myelinating oligodendrocytes and repair brain lesions.. Journal of Neuroscience, 6379-6391. |
| 20838243 | not listed | Howell, O.W., et al. 2010. Activated microglia mediate axoglial disruption that contributes to axonal injury in multiple sclerosis.. Journal of Neuropathology & Experimental Neurology, 1017-1033. |
| 20628201 | not listed | Wimmer, V.C., et al. 2010. Axon initial segment dysfunction in a mouse model of genetic epilepsy with febrile seizures plus. . The Journal of clinical investigation, 2661-2671. |
| 20375142 | not listed | Wimmer, V.C., et al. 2010. Axon initial segment dysfunction in epilepsy. . The Journal of physiology, 1829-1840. |
| 20173079 | 1:200 | Osorio, N., et al. 2010. Persistent Nav1.6 current at axon initial segments tunes spike timing of cerebellar granule cells.. The Journal of Physiology, 651-670. |
| 20133873 | 1:100 | Brackenbury, W.J., et al. 2010. Functional reciprocity between Na+ channel Nav1. 6 and ß1 subunits in the coordinated regulation of excitability and neurite outgrowth. . Proceedings of the National Academy of Sciences, 2283-2288. |
| 18661556 | 1:1000 | Desai, M.K., et al. 2009. Triple‐transgenic Alzheimer's disease mice exhibit region‐specific abnormalities in brain myelination patterns prior to appearance of amyloid and tau pathology. . Glia, 4-65. |
| 18930825 | 1:1000 | Shakkottai, V.G., et al. 2008. FGF14 regulates the intrinsic excitability of cerebellar Purkinje neurons.. Neurobiology of Disease, 81-88. |
| 18621130 | not listed | Duflocq, A., et al. 2008. Nav1. 1 is predominantly expressed in nodes of Ranvier and axon initial segments. . Molecular and Cellular Neuroscience, 180-192. |
| 18522848 | 1:200 | Windrem, M.S., et al. 2008. Neonatal chimerization with human glial progenitor cells can both remyelinate and rescue the otherwise lethally hypomyelinated shiverer mouse.. Cell Stem Cell, 553-565. |
| Immunohistochemistry: Rat | ||
| PMID | Dilution | Publication |
| 25948259 | 1:200 | Hirono, M., et al. 2015. BK Channels Localize to the Paranodal Junction and Regulate Action Potentials in Myelinated Axons of Cerebellar Purkinje Cells.. Journal of Neuroscience, 7082-7094. |
| 24477962 | 1:100 | King, A.N., et al. 2014. A unique ion channel clustering domain on the axon initial segment of mammalian neurons. . Journal of Comparative Neurology, 2594-2608. |
| 21734302 | 1:200 | Lysakowski, A., et al. 2011. Molecular microdomains in a sensory terminal, the vestibular calyx ending.. Journal of Neuroscience, 10101-10114. |
| 19118165 | 1:500 | Lorincz, A., et al. 2008. Cell-type-dependent molecular composition of the axon initial segment. . Journal of Neuroscience, 14329-14340. |
| 18769561 | 1:500-1:1000 | Mojumder, D.K., et al. 2008. Subcellular compartmentalization of two calcium binding proteins, calretinin and calbindin-28 kDa, in ganglion and amacrine cells of the rat retina. . Molecular Vision, 1600. |
| Western Blot: Mouse | ||
| PMID | Dilution | Publication |
| 31933626 | 1:500 | Alshammari, M.A., et al. 2019. Changes in the Fluorescence Tracking of NaV1.6 Protein Expression in a BTBR T+Itpr3tf/J Autistic Mouse Model. Neural Plasticity, 4893103. |
| 30125271 | not listed | Nunes, D., et al. 2018. Axonal sodium channel NaV1. 2 drives granule cell dendritic GABA release and rapid odor discrimination. . PLoS biology, e2003816. |
| 29491011 | 1:200 | Zhou, L., et al. 2018. Celecoxib ameliorates seizure susceptibility in autosomal dominant lateral temporal epilepsy. . Journal of Neuroscience, 3346-3357. |
| 26406915 | not listed | Brügger, V., et al. 2015. HDAC1/2-Dependent P0 Expression Maintains Paranodal and Nodal Integrity Independently of Myelin Stability through Interactions with Neurofascins.. PLoS Biology, e1002258. |
| 25362471 | not listed | Chang, K.J., et al. 2014. Glial ankyrins facilitate paranodal axoglial junction assembly.. Nature Neuroscience, 1673-81. |
| 19013247 | 1:200 | O'Malley, H.A., et al. 2009. Loss of Na+ channel ß2 subunits is neuroprotective in a mouse model of multiple sclerosis. . Molecular and Cellular Neuroscience, 143-155. |
| 16870743 | 1:100 | Lopez-Santiago, L.F., et al. 2006. Sodium channel beta2 subunits regulate tetrodotoxin-sensitive sodium channels in small dorsal root ganglion neurons and modulate the response to pain.. Journal of Neuroscience, 7984-7994. |
| Additional Publications: Unspecified | ||
| PMID | Publication | |
| 30500400 | Brasileiro, A.D., et al. 2019. Effects of diabetes mellitus on myenteric neuronal density and sodium channel expression in the rat ileum. . Brain Research, 1-9. | |
| 27100937 | Clark, K.C., et al. 2016. Compromised axon initial segment integrity in EAE is preceded by microglial reactivity and contact. Glia, 64(7), pp.1190-1209.. Glia, 1190-1209. | |
| 25421039 | Wimmer, V.C., et al. 2015. Sodium channel ß1 subunit localizes to axon initial segments of excitatory and inhibitory neurons and shows regional heterogeneity in mouse brain.. Journal of Comparative Neurology, 814-830. | |
| 23025758 | Baalman, K.L., et al. 2013. Blast wave exposure impairs memory and decreases axon initial segment length.. Journal of Neurotrauma, 741-751. | |
| 19800949 | Crawford, D.K., et al. 2009. Functional recovery of callosal axons following demyelination: a critical window.. Neuroscience, 1407-1421. | |
| 18079688 | Mojumder, D.K., et al. 2007. Voltage-gated sodium channel alpha-subunits Na(v)1.1, Na(v)1.2, and Na(v)1.6 in the distal mammalian retina.. Molecular Vision, 2163-2182. | |
| 17884088 | Lopez-Santiago, L.F., et al. 2007. Sodium channel Scn1b null mice exhibit prolonged QT and RR intervals. . Journal of molecular and cellular cardiology, 636-647. | |
| 16817858 | Rush, A.M., et al. 2006. Differential modulation of sodium channel Na(v)1.6 by two members of the fibroblast growth factor homologous factor 2 subfamily.. European Journal of Neuroscience, 2551-2562. | |