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Relevance to Autism

Mutations appear to give rise to Dravet Syndrome as well as distinct epilepsy-related disorders and also migraine. Missense mutations were observed in cases from multiple unrelated families, one of which presented with seizures and Asperger Syndrome (asymptomatic carriers were also seen in families, but missense variants were not observed in any of 304 controls (Osaka H et al.). Autism seems to be common amongst individuals with Dravet Syndrome but the report does not give a frequency for the 20 individuals studied (Wolff M et al.). Rare missense variants were observed in 4/299 AGRE families but none of 96 controls, and one of these variants was found previously in a child with juvenile myoclonic epilepsy (Weiss LA et al.). De novo variants in SCN1A, including multiple missense variants that were predicted to be damaging and one likely gene-disruptive variant, have been identified in ASD probands (O'Roak et al., 2011; O'Roak et al., 2012; O'Roak et al., 2012; De Rubeis et al., 2014; Yuen et al., 2017). Assessment of a cohort of 35 individuals with Dravet syndrome using standardized tools demonstrated that 11 patients (39%) had ASD according to the DSM5 classification and ADIR and ADOS2 (Ouss et al., 2018). Additional de novo missense variants in the SCN1A gene were identified in novel ASD probands from the Autism Sequencing Consortium in Satterstrom et al., 2020; subsequent TADA analysis in this report identified SCN1A as a candidate gene with a false discovery rate < 0.1.

Molecular Function

This gene encodes the large alpha subunit of the vertebrate voltage-gated sodium channel essential for the generation and propagation of action potentials, mainly in nerve and muscle.

External Links

        

References

Type
Title
Type of Disorder
Associated Disorders
Author, Year
Primary
Sodium channels SCN1A, SCN2A and SCN3A in familial autism.
ASD
Positive Association
Epilepsy, hippocampal sclerosis and febrile seizures linked by common genetic variation around SCN1A.
Epilepsy
Positive Association
De novo mutations in epileptic encephalopathies.
Epilepsy
IS, LGS, DD, ID, ASD, ADHD
Support
Sporadic autism exomes reveal a highly interconnected protein network of de novo mutations.
ASD
Support
Inherited and multiple de novo mutations in autism/developmental delay risk genes suggest a multifactorial model.
ASD
Support
Monogenic developmental and epileptic encephalopathies of infancy and childhood
DD, ID, epilepsy/seizures
ASD
Support
Clinical exome sequencing: results from 2819 samples reflecting 1000 families.
Neurodegeneration
Support
Prevalence and phenotypic impact of rare potentially damaging variants in autism spectrum disorder
ASD
Support
Exome sequencing in multiplex autism families suggests a major role for heterozygous truncating mutations.
ASD
Support
Clinical utility of multigene panel testing in adults with epilepsy and intellectual disability.
ID, epilepsy/seizures
Autistic features
Support
Epilepsy/seizures
Support
Expanding the genetic heterogeneity of intellectual disability.
Epilepsy/seizures, developmental regression
Support
Genetic care in geographically isolated small island communities: 8 years of experience in the Dutch Caribbean
Epilepsy/seizures
Support
Comprehensive molecular testing in patients with high functioning autism spectrum disorder.
ASD
Support
Next-Generation Sequencing in Korean Children With Autism Spectrum Disorder and Comorbid Epilepsy
ASD
ID, epilepsy/seizures
Support
ID, epilepsy/seizures
Support
Mosaic SCN1A mutations in familial partial epilepsy with antecedent febrile seizures.
Epilepsy/seizures
Support
First report on the association of SCN1A mutation, childhood schizophrenia and autism spectrum disorder without epilepsy.
ASD, SCZ
Support
Genetic and Phenotype Analysis of a Chinese Cohort of Infants and Children With Epilepsy
Epilepsy/seizures
ID
Support
The genomic landscape of balanced cytogenetic abnormalities associated with human congenital anomalies.
DD, epilepsy/seizures, microcephaly
Support
A single center experience with publicly funded clinical exome sequencing for neurodevelopmental disorders or multiple congenital anomalies
DD, ID, epilepsy/seizures
Support
Targeted resequencing in epileptic encephalopathies identifies de novo mutations in CHD2 and SYNGAP1.
Epilepsy
ID, ASD, DD
Support
The Clinical and Genetic Features of Co-occurring Epilepsy and Autism Spectrum Disorder in Chinese Children.
ASD, epilepsy/seizures
Support
Dravet syndrome, epilepsy/seizures
ASD, ADHD, ID
Support
Targeted sequencing and functional analysis reveal brain-size-related genes and their networks in autism spectrum disorders.
ASD
Support
Mutational Landscape of Autism Spectrum Disorder Brain Tissue
ASD
Support
Targeted DNA Sequencing from Autism Spectrum Disorder Brains Implicates Multiple Genetic Mechanisms.
ASD
Support
Utility of clinical exome sequencing in a complex Emirati pediatric cohort
Epilepsy/seizures
Support
Dravet syndrome
Autistic features
Support
Exome sequencing of ion channel genes reveals complex profiles confounding personal risk assessment in epilepsy.
Epilepsy
Support
Clinical genome sequencing in an unbiased pediatric cohort.
Dravet syndrome
DD, epilepsy/seizures
Support
Functional Investigation of a Neuronal Microcircuit in the CA1 Area of the Hippocampus Reveals Synaptic Dysfunction in Dravet Syndrome Mice
Dravet syndrome
Support
De novo genic mutations among a Chinese autism spectrum disorder cohort.
ASD
Support
Genome sequencing of 320 Chinese children with epilepsy: a clinical and molecular study
DD, epilepsy/seizures
Support
Generalized epilepsy with febrile seizure plus (GEFS) spectrum: Novel de novo mutation of SCN1A detected in a Malaysian patient.
Epilepsy
DD, ID
Support
Comprehensive Analysis of Rare Variants of 101 Autism-Linked Genes in a Hungarian Cohort of Autism Spectrum Disorder Patients.
ASD
Dravet syndrome
Support
ASD
Support
Using medical exome sequencing to identify the causes of neurodevelopmental disorders: experience of two clinical units and 216 patients.
ID, epilepsy/seizures
Support
Analysis of recent shared ancestry in a familial cohort identifies coding and noncoding autism spectrum disorder variants
ASD
DD, ID, epilepsy/seizures
Support
Gene Mutation Analysis in 253 Chinese Children with Unexplained Epilepsy and Intellectual/Developmental Disabilities.
DD, ID, epilepsy/seizures
Support
Large-Scale Exome Sequencing Study Implicates Both Developmental and Functional Changes in the Neurobiology of Autism
ASD
Support
ADHD, epilepsy/seizures
Support
Exome sequencing in sporadic autism spectrum disorders identifies severe de novo mutations.
ASD
Support
Language Regression in an Atypical SLC6A1 Mutation.
ASD, epilepsy/seizures
Language delay, regression
Support
Genetic analysis using targeted exome sequencing of 53 Vietnamese children with developmental and epileptic encephalopathies
DD, epilepsy/seizures
Support
Exome sequencing of Pakistani consanguineous families identifies 30 novel candidate genes for recessive intellectual disability.
ID, epilepsy/seizures
Support
Clinical and genetic characteristics of patients with Doose syndrome
Epilepsy/seizures
Support
Multiplex targeted sequencing identifies recurrently mutated genes in autism spectrum disorders.
ASD
Support
Lessons Learned from Large-Scale, First-Tier Clinical Exome Sequencing in a Highly Consanguineous Population.
Epilepsy/seizures, DD, ID
Autistic features, stereotypies
Support
Genomic diagnosis for children with intellectual disability and/or developmental delay.
ID, epilepsy/seizures
Support
Critical Role of E1623 Residue in S3-S4 Loop of Nav1.1 Channel and Correlation Between Nature of Substitution and Functional Alteration
Epilepsy/seizures
DD, ID
Support
Large-scale discovery of novel genetic causes of developmental disorders.
DD, epilepsy/seizures
Support
Autism risk in offspring can be assessed through quantification of male sperm mosaicism.
ASD
Support
NA
Dravet syndrome
Support
Nonfunctional SCN1A is common in severe myoclonic epilepsy of infancy.
Epilepsy/seizures
Support
Mosaicism of de novo pathogenic SCN1A variants in epilepsy is a frequent phenomenon that correlates with variable phenotypes.
Epilepsy/seizures
DD/ID, ASD, ADHD
Support
Clinical and Functional Features of Epilepsy-Associated In-Frame Deletion Variants in SCN1A
Epilepsy/seizures
ID, learning disability
Support
Pathogenic copy number variants and SCN1A mutations in patients with intellectual disability and childhood-onset epilepsy.
DD, ID, epilepsy/seizures
Support
Next Generation Sequencing of 134 Children with Autism Spectrum Disorder and Regression
ASD
Developmental regression, epilepsy/seizures
Support
DD, epilepsy/seizures
Support
Identification of SCN1A and PCDH19 mutations in Chinese children with Dravet syndrome.
Epilepsy
ASD, ID
Support
Neurological Diseases With Autism Spectrum Disorder: Role of ASD Risk Genes.
ASD
Dravet syndrome
Support
Epilepsy/seizures
Support
Whole genome sequencing resource identifies 18 new candidate genes for autism spectrum disorder
ASD
Support
Assessing Utility of Clinical Exome Sequencing in Diagnosis of Rare Idiopathic Neurodevelopmental Disorders in Indian Population
Epilepsy/seizures
DD, ID
Support
Synaptic, transcriptional and chromatin genes disrupted in autism.
ASD
Support
Re-annotation of 191 developmental and epileptic encephalopathy-associated genes unmasks de novo variants in SCN1A.
Dravet syndrome
Support
ASD
DD, ID
Support
Diagnostic exome sequencing of syndromic epilepsy patients in clinical practice.
DD, epilepsy/seizures
Developmental regression
Support
Developmentally regulated impairment of parvalbumin interneuron synaptic transmission in an experimental model of Dravet syndrome
Dravet syndrome
Support
A Point Mutation in SCN1A 5' Genomic Region Decreases the Promoter Activity and Is Associated with Mild Epilepsy and Seizure Aggravation Induced by...
Epilepsy/seizures
Support
Overrepresentation of genetic variation in the AnkyrinG interactome is related to a range of neurodevelopmental disorders
ID, epilepsy/seizures
Psychomotor retardation
Support
Epilepsy/seizures
ASD, DD
Support
SCN1A mutation associated with intractable myoclonic epilepsy and migraine headache.
Dravet syndrome
Epilepsy, ASD
Support
The combination of whole-exome sequencing and copy number variation sequencing enables the diagnosis of rare neurological disorders.
Epilepsy/seizures
ID
Support
Integrating de novo and inherited variants in 42
ASD
Support
Diagnostic Targeted Resequencing in 349 Patients with Drug-Resistant Pediatric Epilepsies Identifies Causative Mutations in 30 Different Genes.
Epilepsy/seizures
Dravet syndrome
Support
Autism spectrum disorder and comorbid neurodevelopmental disorders (ASD-NDDs): Clinical and genetic profile of a pediatric cohort
ASD
Epilepsy/seizures
Support
Performance comparison of bench-top next generation sequencers using microdroplet PCR-based enrichment for targeted sequencing in patients with aut...
ASD
ID, epilepsy
Support
Exome sequencing of 457 autism families recruited online provides evidence for autism risk genes
ASD
Support
Epilepsy/seizures
ASD, DD
Support
High Rate of Recurrent De Novo Mutations in Developmental and Epileptic Encephalopathies.
Epilepsy/seizures
DD/ID
Support
Trio-based exome sequencing reveals a high rate of the de novo variants in intellectual disability
ID, epilepsy/seizures
Support
The contribution of protein intrinsic disorder to understand the role of genetic variants uncovered by autism spectrum disorders exome studies.
Support
A recurrent PJA1 variant in trigonocephaly and neurodevelopmental disorders
Epilepsy/seizures
ASD
Support
Epilepsy/seizures
Highly Cited
De novo mutations in the sodium-channel gene SCN1A cause severe myoclonic epilepsy of infancy.
Epilepsy
Highly Cited
Mutations of SCN1A, encoding a neuronal sodium channel, in two families with GEFS.
Epilepsy
Recent Recommendation
Patients with a sodium channel alpha 1 gene mutation show wide phenotypic variation.
Epilepsy
Asperger syndrome
Recent Recommendation
Low load for disruptive mutations in autism genes and their biased transmission.
ASD
Recent Recommendation
Severe myoclonic epilepsy of infants (Dravet syndrome): natural history and neuropsychological findings.
Recent Recommendation
Incorporating Functional Information in Tests of Excess De Novo Mutational Load.
Recent Recommendation
Integrated systems analysis reveals a molecular network underlying autism spectrum disorders.
ASD
Recent Recommendation
SCN1A testing for epilepsy: application in clinical practice.
Recent Recommendation
Nontruncating SCN1A mutations associated with severe myoclonic epilepsy of infancy impair cell surface expression.
Recent Recommendation
Aberrant Inclusion of a Poison Exon Causes Dravet Syndrome and Related SCN1A-Associated Genetic Epilepsies.
Dravet syndrome
Recent Recommendation
Nav1.1 localizes to axons of parvalbumin-positive inhibitory interneurons: a circuit basis for epileptic seizures in mice carrying an Scn1a gene mu...
Recent Recommendation
CRISPR/Cas9 facilitates investigation of neural circuit disease using human iPSCs: mechanism of epilepsy caused by an SCN1A loss-of-function mutation.

Rare

Variant ID
Variant Type
Allele Change
Residue Change
Inheritance Pattern
Inheritance Association
Family Type
Author, Year
 GEN223R001 
 missense_variant 
 c.2624C>T 
 p.Thr875Met 
  
  
  
 GEN223R002 
 missense_variant 
 c.4943G>A 
 p.Arg1648His 
  
  
  
 GEN223R003 
 frameshift_variant 
 c.253_254del 
 p.Ile85GlnfsTer2 
 De novo 
  
  
 GEN223R004 
 stop_gained 
 c.664C>T 
 p.Arg222Ter 
 De novo 
  
  
 GEN223R005 
 missense_variant 
 c.2956C>T 
 p.Leu986Phe 
 De novo 
  
  
 GEN223R006 
 frameshift_variant 
 c.3299insAA 
  
 De novo 
  
  
 GEN223R007 
 splice_site_variant 
 G>A 
 p.? 
 De novo 
  
  
 GEN223R008 
 frameshift_variant 
 c.4574_4577del 
 p.Arg1525GlnfsTer13 
 De novo 
  
  
 GEN223R009 
 frameshift_variant 
 c.5119_5122del 
 p.Phe1707ArgfsTer7 
 De novo 
  
  
 GEN223R010 
 missense_variant 
 c.4096G>A 
 p.Val1366Ile 
 Familial 
 Maternal 
  
 GEN223R011 
 missense_variant 
 c.4096G>A 
 p.Val1366Ile 
 Familial 
 Maternal 
  
 GEN223R012 
 missense_variant 
 c.4096G>A 
 p.Val1366Ile 
  
  
  
 GEN223R013 
 missense_variant 
 c.1625G>A 
 p.Arg542Gln 
 Familial 
 Paternal 
 Multiplex 
 GEN223R014 
 missense_variant 
 c.3101T>C 
 p.Ile1034Thr 
 Familial 
 Paternal 
 Multiplex 
 GEN223R015 
 missense_variant 
 c.3112T>C 
 p.Phe1038Leu 
 Familial 
 Paternal 
 Multiplex 
 GEN223R016 
 missense_variant 
 c.5864T>C 
 p.Ile1955Thr 
  
  
  
 GEN223R017 
 missense_variant 
 c.5714C>T 
 p.Pro1905Leu 
 De novo 
  
 Simplex 
 GEN223R018 
 missense_variant 
 c.3521C>G 
 p.Thr1174Ser 
 Familial 
 Maternal 
 Simplex 
 GEN223R019 
 frameshift_variant 
 c.2971_2972delinsG 
 p.Leu991ValfsTer2 
 De novo 
  
  
 GEN223R020 
 frameshift_variant 
 c.4229del 
 p.Asn1410MetfsTer2 
 De novo 
  
  
 GEN223R021 
 frameshift_variant 
 c.4558del 
 p.Gln1520LysfsTer19 
 De novo 
  
  
 GEN223R022 
 stop_gained 
 c.1348C>T 
 p.Gln450Ter 
 De novo 
  
  
 GEN223R023 
 stop_gained 
 c.569G>A 
 p.Trp190Ter 
 De novo 
  
  
 GEN223R024 
 stop_gained 
 c.2214G>A 
 p.Trp738Ter 
 De novo 
  
  
 GEN223R025 
 stop_gained 
 c.1053T>A 
 p.Cys351Ter 
 Unknown 
  
  
 GEN223R026 
 splice_site_variant 
 NM_001165963:IVS21+1G>A 
 p.? 
 De novo 
  
  
 GEN223R027 
 splice_site_variant 
 NM_001165963:IVS3+3A>C 
 p.? 
 De novo 
  
  
 GEN223R028 
 missense_variant 
 c.2378C>T 
 p.Thr793Met 
 Familial 
 Maternal 
  
 GEN223R029 
 missense_variant 
 c.311C>T 
 p.Ala104Val 
 De novo 
  
  
 GEN223R030 
 missense_variant 
 c.4834G>A 
 p.Val1612Ile 
 Familial 
 Maternal 
  
 GEN223R031 
 missense_variant 
 c.1177C>A 
 p.Arg393Ser 
 De novo 
  
  
 GEN223R032 
 missense_variant 
 c.1264G>A 
 p.Val422Met 
 De novo 
  
  
 GEN223R033 
 missense_variant 
 c.3641T>G 
 p.Ile1214Arg 
 De novo 
  
  
 GEN223R034 
 missense_variant 
 c.1546G>A 
 p.Asp516Asn 
 Unknown 
  
  
 GEN223R035 
 missense_variant 
 c.1390G>C 
 p.Ala464Pro 
 Unknown 
  
  
 GEN223R036 
 synonymous_variant 
 c.5538G>A 
 p.(=) 
 Unknown 
  
 Unknown 
 GEN223R037 
 synonymous_variant 
 c.4698T>C 
 p.Ser1566= 
 Unknown 
  
 Unknown 
 GEN223R038 
 missense_variant 
 A>G 
 p.Phe408Leu 
 Unknown 
  
 Unknown 
 GEN223R039 
 missense_variant 
 c.5315C>T 
 p.Ala1772Val 
 Unknown 
  
 Unknown 
 GEN223R040 
 missense_variant 
 c.5314G>A 
 p.Ala1772Thr 
 Unknown 
  
 Unknown 
 GEN223R041 
 missense_variant 
 c.5779C>T 
 p.Arg1927Gly 
 De novo 
  
 Simplex 
 GEN223R042 
 missense_variant 
 c.5197A>G 
 p.Ile1733Val 
 De novo 
  
  
 GEN223R043 
 frameshift_variant 
 c.4836del 
 p.Ile1613PhefsTer5 
 De novo 
  
  
 GEN223R044 
 missense_variant 
 c.5962C>T 
 p.Arg1988Trp 
 Familial 
 Paternal and maternal 
 Multi-generational 
 GEN223R045 
 missense_variant 
 c.4033C>T 
 p.Pro1345Ser 
 De novo 
  
  
 GEN223R046 
 missense_variant 
 c.133G>A 
 p.Asp45Asn 
 Familial 
 Paternal 
 Multi-generational 
 GEN223R047 
 missense_variant 
 c.3977C>T 
 p.Ala1326Val 
 De novo 
  
  
 GEN223R048 
 missense_variant 
 c.1076A>C 
 p.Asn359Thr 
 Familial 
 Unknown 
 Unknown 
 GEN223R049 
 frameshift_variant 
 c.1209del 
 p.Phe403LeufsTer12 
 Unknown 
  
  
 GEN223R050 
 missense_variant 
 c.4453A>G 
 p.Asn1485Asp 
 De novo 
  
  
 GEN223R051 
 missense_variant 
 c.179A>G 
 p.Asn60Ser 
 Unknown 
  
  
 GEN223R052 
 missense_variant 
 c.5195C>T 
 p.Pro1732Leu 
 Unknown 
  
  
 GEN223R053 
 missense_variant 
 c.2917A>G 
 p.Met973Val 
 Unknown 
  
  
 GEN223R054 
 missense_variant 
 c.650C>T 
 p.Thr217Ile 
 Unknown 
  
  
 GEN223R055 
 missense_variant 
 c.945G>A 
 p.Lys315= 
 Unknown 
  
  
 GEN223R056 
 missense_variant 
 c.1852C>T 
 p.Arg618Cys 
 Unknown 
  
  
 GEN223R057 
 stop_gained 
 c.3637C>T 
 p.Arg1213Ter 
 De novo 
  
  
 GEN223R058 
 missense_variant 
 c.5222G>C 
 p.Cys1741Ser 
 De novo 
  
  
 GEN223R059 
 splice_site_variant 
 c.602+1G>A 
  
 De novo 
  
  
 GEN223R060 
 missense_variant 
 c.1177C>T 
 p.Arg393Cys 
 De novo 
  
  
 GEN223R061 
 frameshift_variant 
 c.3905dup 
 p.Asn1302LysfsTer30 
 De novo 
  
  
 GEN223R062 
 missense_variant 
 c.4529C>A 
 p.Ala1510Glu 
 De novo 
  
  
 GEN223R063 
 missense_variant 
 c.2876G>A 
 p.Cys959Tyr 
 De novo 
  
  
 GEN223R064 
 missense_variant 
 c.3497A>C 
 p.Gln1166Pro 
 Familial 
 Paternal 
 Multiplex 
 GEN223R065 
 missense_variant 
 c.4612G>A 
 p.Val1538Ile 
 Unknown 
  
 Unknown 
 GEN223R066 
 nonsynonymous_variant 
  
  
 Unknown 
  
 Unknown 
 GEN223R067 
 missense_variant 
 c.5732T>G 
 p.Ile1911Ser 
 De novo 
  
 Simplex 
 GEN223R068 
 missense_variant 
 c.5714C>T 
 p.Pro1905Leu 
 De novo 
  
 Simplex 
 GEN223R069 
 stop_gained 
 c.4547C>A 
 p.Ser1516Ter 
 De novo 
  
 Simplex 
 GEN223R070 
 stop_gained 
 c.2134C>T 
 p.Arg712Ter 
 De novo 
  
 Simplex 
 GEN223R071 
 missense_variant 
 c.4942C>T 
 p.Arg1648Cys 
 De novo 
  
 Simplex 
 GEN223R072 
 intron_variant 
 c.2589+3A>T 
  
 De novo 
  
 Simplex 
 GEN223R073 
 stop_gained 
 c.3733C>T 
 p.Arg1245Ter 
 De novo 
  
 Simplex 
 GEN223R074 
 missense_variant 
 c.254T>A 
 p.Ile85Asn 
 De novo 
  
 Simplex 
 GEN223R075 
 frameshift_variant 
 c.3000del 
 p.Ala1001GlnfsTer9 
 De novo 
  
 Simplex 
 GEN223R076 
 stop_gained 
 c.2116G>T 
 p.Asp706Tyr 
 De novo 
  
 Simplex 
 GEN223R077 
 splice_site_variant 
 c.602+1G>A 
  
 Unknown 
  
 Unknown 
 GEN223R078 
 missense_variant 
 c.4319C>T 
 p.Pro1440Leu 
 Unknown 
  
 Multiplex or multi-generational 
 GEN223R079 
 missense_variant 
 c.4411T>C 
 p.Ser1471Pro 
 Familial 
 Paternal 
 Multiplex 
 GEN223R080 
 missense_variant 
 c.5768A>G 
 p.Gln1923Arg 
 Familial 
 Paternal 
 Multi-generational 
 GEN223R081 
 missense_variant 
 c.4926G>C 
 p.Arg1642Ser 
 De novo 
  
  
 GEN223R082 
 missense_variant 
 c.1811G>A 
 p.Arg604His 
 Familial 
 Maternal 
 Simplex 
 GEN223R083 
 2KB_upstream_variant 
 c.2189T>G;c.2097T>G 
  
 Familial 
 Maternal 
  
 GEN223R084 
 copy_number_loss 
  
  
 De novo 
  
  
 GEN223R085 
 frameshift_variant 
 c.285_286insAGAA 
 p.Gly96ArgfsTer24 
 De novo 
  
  
 GEN223R086 
 missense_variant 
 c.301C>T 
 p.Arg101Trp 
 De novo 
  
  
 GEN223R087 
 missense_variant 
 c.393C>G 
 p.Ser131Arg 
 Familial 
 Maternal 
 Multi-generational 
 GEN223R088 
 missense_variant 
 c.5005G>A 
 p.Ala1669Thr 
 De novo 
  
  
 GEN223R089a 
 missense_variant 
 c.5501C>T 
 p.Ala1834Val 
 Familial 
 Both parents 
 Extended multiplex 
 GEN223R090 
 missense_variant 
 c.4834G>A 
 p.Val1612Ile 
 Familial 
 Maternal 
  
 GEN223R091 
 missense_variant 
 c.1261G>A 
 p.Val421Met 
 De novo 
  
 Simplex 
 GEN223R092 
 inversion 
  
  
 De novo 
  
  
 GEN223R093 
 missense_variant 
 c.1848G>C 
 p.Glu616Asp 
 Familial 
 Maternal 
 Multi-generational 
 GEN223R094 
 missense_variant 
 c.568T>C 
 p.Trp190Arg 
 Unknown 
 Not maternal 
  
 GEN223R095 
 missense_variant 
 c.277T>C 
 p.Leu93= 
 De novo 
  
  
 GEN223R096 
 splice_site_variant 
 c.603-2A>G 
  
 De novo 
  
  
 GEN223R097 
 missense_variant 
 c.4934G>A 
 p.Arg1645Gln 
 De novo 
  
  
 GEN223R098 
 frameshift_variant 
 c.4384_4385del 
 p.Tyr1462LeufsTer23 
 De novo 
  
  
 GEN223R099 
 missense_variant 
 c.4814A>T 
 p.Asn1605Ile 
 De novo 
  
  
 GEN223R100 
 frameshift_variant 
 c.3320dup 
 p.Asn1107LysfsTer17 
 De novo 
  
  
 GEN223R101 
 frameshift_variant 
 c.5488_5489del 
 p.Gln1830ValfsTer6 
 De novo 
  
 Simplex 
 GEN223R102 
 frameshift_variant 
 c.3672del 
 p.Ile1224MetfsTer4 
 De novo 
  
  
 GEN223R103 
 stop_gained 
 c.3637C>T 
 p.Arg1213Ter 
 De novo 
  
  
 GEN223R104 
 intron_variant 
 c.3969+2451G>C 
  
 De novo 
  
  
 GEN223R105 
 missense_variant 
 c.5726C>T 
 p.Thr1909Ile 
 De novo 
  
  
 GEN223R106 
 missense_variant 
 c.2248T>C 
 p.Cys750Arg 
 Familial 
  
 Simplex 
 GEN223R107 
 missense_variant 
 c.3308T>C 
 p.Met1103Thr 
 Familial 
  
 Simplex 
 GEN223R108 
 missense_variant 
 c.5449C>T 
 p.Pro1817Ser 
 Familial 
  
 Simplex 
 GEN223R109 
 missense_variant 
 c.32C>A 
 p.Pro11His 
 De novo 
  
 Simplex 
 GEN223R110 
 missense_variant 
 c.1006T>G 
 p.Cys336Gly 
 De novo 
  
 Simplex 
 GEN223R111 
 stop_gained 
 c.664C>T 
 p.Arg222Ter 
 De novo 
  
 Simplex 
 GEN223R112 
 splice_site_variant 
 c.2862+1G>T;c.2913+1G>T;c.2946+1G>T 
 p.? 
 De novo 
  
 Simplex 
 GEN223R113 
 missense_variant 
 c.5234C>A;c.5285C>A;c.5318C>A 
 p.Ser1745Tyr;p.Ser1762Tyr;p.Ser1773Tyr 
 De novo 
  
 Simplex 
 GEN223R114 
 missense_variant 
 c.2629G>C;c.2680G>C;c.2713G>C 
 p.Ala877Pro;p.Ala894Pro;p.Ala905Pro 
 De novo 
  
 Simplex 
 GEN223R115 
 stop_gained 
 c.2050C>T;c.2101C>T;c.2134C>T 
 p.Arg684Ter;p.Arg701Ter;p.Arg712Ter 
 De novo 
  
 Simplex 
 GEN223R116 
 splice_site_variant 
 c.200_203del 
 p.Asp67ValfsTer24 
 De novo 
  
  
 GEN223R117 
 frameshift_variant 
 c.218_252del 
 p.Val73AspfsTer3 
 De novo 
  
  
 GEN223R118 
 splice_site_variant 
 NM_001202435.3:c.3430_3C>G 
 p.? 
 De novo 
  
  
 GEN223R119 
 frameshift_variant 
 c.4757del 
 p.Gly1586GlufsTer5 
 De novo 
  
  
 GEN223R120 
 missense_variant 
 c.5348C>T 
 p.Ala1783Val 
 De novo 
  
  
 GEN223R121 
 copy_number_loss 
  
  
 De novo 
  
  
 GEN223R122 
 frameshift_variant 
 c.983_984insC 
 p.Glu328AspfsTer12 
 De novo 
  
  
 GEN223R123 
 missense_variant 
 c.980T>G 
 p.Leu327Arg 
 De novo 
  
  
 GEN223R124 
 frameshift_variant 
 c.1132del 
 p.Leu378Ter 
 De novo 
  
  
 GEN223R125 
 frameshift_variant 
 c.587del 
 p.Thr196MetfsTer20 
 De novo 
  
  
 GEN223R126 
 frameshift_variant 
 c.3890_3903del 
 p.Val1297GlufsTer30 
 De novo 
  
  
 GEN223R127 
 missense_variant 
 c.1757C>T 
 p.Ser586Phe 
 Familial 
 Paternal 
  
 GEN223R128 
 missense_variant 
 c.4020T>G 
 p.Leu1340= 
 De novo 
  
  
 GEN223R129 
 missense_variant 
 c.4793A>T 
 p.Tyr1598Phe 
 Unknown 
  
 Simplex 
 GEN223R130 
 intron_variant 
 c.4002+2165C>T 
  
 Familial 
 Paternal 
 Multi-generational 
 GEN223R131 
 intron_variant 
 c.4002+2168_4002+2172del 
  
 De novo 
  
  
 GEN223R132 
 intron_variant 
 c.4002+2451G>C 
  
 De novo 
  
 Simplex 
 GEN223R133 
 intron_variant 
 c.4002+2455G>A 
  
 Unknown 
 Not maternal 
  
 GEN223R134 
 intron_variant 
 c.4002+2503C>T 
  
 Familial 
 Maternal 
 Multi-generational 
 GEN223R135 
 copy_number_loss 
  
  
 Unknown 
 Not maternal 
 Simplex 
 GEN223R136 
 copy_number_loss 
  
  
 De novo 
  
 Simplex 
 GEN223R137 
 missense_variant 
 c.4834G>A 
 p.Val1612Ile 
 Familial 
 Maternal 
 Simplex 
 GEN223R138 
 missense_variant 
 c.3931G>A 
 p.Ala1311Thr 
 Familial 
 Paternal 
 Simplex 
 GEN223R139 
 frameshift_variant 
 c.3412del 
 p.Leu1138TrpfsTer8 
 De novo 
  
  
 GEN223R140 
 frameshift_variant 
 c.5103_5106del 
 p.Ile1701MetfsTer13 
 De novo 
  
  
 GEN223R141 
 stop_gained 
 c.1333C>T 
 p.Gln445Ter 
 De novo 
  
  
 GEN223R142 
 missense_variant 
 c.3620T>C 
 p.Leu1207Pro 
 De novo 
  
  
 GEN223R143 
 frameshift_variant 
 c.3562delinsCC 
 p.Arg1188ProfsTer29 
 Familial 
 Paternal 
  
 GEN223R144 
 missense_variant 
 c.5315C>G 
 p.Ala1772Gly 
 De novo 
  
  
 GEN223R145 
 missense_variant 
 c.5161A>T 
 p.Thr1721Ser 
 Familial 
 Paternal 
  
 GEN223R146 
 missense_variant 
 c.5111T>C 
 p.Ile1704Thr 
 Familial 
 Maternal 
  
 GEN223R147 
 frameshift_variant 
 c.2118del 
 p.Pro707LeufsTer8 
 De novo 
  
  
 GEN223R148 
 missense_variant 
 c.2923C>T 
 p.Leu975Phe 
 De novo 
  
  
 GEN223R149 
 stop_gained 
 c.3733C>T 
 p.Arg1245Ter 
 De novo 
  
  
 GEN223R150 
 inframe_indel 
 c.4878_4880del 
 p.Lys1627del 
 De novo 
  
  
 GEN223R151 
 missense_variant 
 c.302G>A 
 p.Arg101Gln 
 De novo 
  
  
 GEN223R152 
 missense_variant 
 c.248A>G 
 p.Tyr83Cys 
 Familial 
 Maternal 
 Multi-generational 
 GEN223R153 
 frameshift_variant 
 c.3402_3403del 
 p.Ser1134ArgfsTer13 
 De novo 
  
  
 GEN223R154 
 stop_gained 
 c.5148C>A 
 p.Cys1716Ter 
 De novo 
  
  
 GEN223R155 
 missense_variant 
 c.4934G>A 
 p.Arg1645Gln 
 De novo 
  
  
 GEN223R156 
 splice_site_variant 
 c.2220A>T 
 p.Lys740Asn 
 De novo 
  
  
 GEN223R157 
 frameshift_variant 
 c.-159_-156del 
  
 De novo 
  
  
 GEN223R158 
 missense_variant 
 c.668C>T 
 p.Ala223Val 
 De novo 
  
  
 GEN223R159 
 missense_variant 
 c.79A>C 
 p.Arg27= 
 De novo 
  
  
 GEN223R160 
 missense_variant 
 c.524C>T 
 p.Ala175Val 
 De novo 
  
  
 GEN223R161 
 missense_variant 
 c.4243T>C 
 p.Phe1415Leu 
 Unknown 
  
  
 GEN223R162 
 missense_variant 
 c.2729A>G 
 p.Gln910Arg 
 Unknown 
 Not maternal 
  
 GEN223R163 
 missense_variant 
 c.5171C>T 
 p.Ala1724Val 
 Unknown 
  
  
 GEN223R164 
 missense_variant 
 c.275T>G 
 p.Val92Gly 
 De novo 
  
  
 GEN223R165 
 missense_variant 
 c.310G>C 
 p.Ala104Pro 
 De novo 
  
 Simplex 
 GEN223R166 
 stop_gained 
 c.3607C>T 
 p.Gln1203Ter 
 Unknown 
  
 Unknown 
 GEN223R167 
 missense_variant 
 c.677C>T 
 p.Thr226Met 
 Unknown 
  
 Unknown 
 GEN223R168 
 missense_variant 
 c.2824C>G 
 p.Leu942Val 
 Unknown 
  
 Unknown 
 GEN223R169 
 missense_variant 
 c.3587T>C 
 p.Leu1196Pro 
 Unknown 
  
 Unknown 
 GEN223R170 
 frameshift_variant 
 c.4061del 
 p.Cys1354PhefsTer6 
 Unknown 
  
 Unknown 
 GEN223R171 
 stop_gained 
 c.5797C>T 
 p.Arg1933Ter 
 Familial 
 Paternal 
  
 GEN223R172 
 coding_sequence_variant 
 c.301G>A 
  
 De novo 
  
 Simplex 
 GEN223R173 
 coding_sequence_variant 
 c.79G>A 
  
 De novo 
  
 Simplex 
 GEN223R174 
 missense_variant 
 c.1177C>T 
 p.Arg393Cys 
 De novo 
  
  
 GEN223R175 
 missense_variant 
 c.5503C>T 
 p.Leu1835Phe 
 De novo 
  
 Simplex 
 GEN223R176 
 missense_variant 
 c.1876A>G 
 p.Ser626Gly 
 De novo 
  
 Simplex 
 GEN223R177 
 intron_variant 
 c.265-19T>C 
  
 De novo 
  
 Simplex 
 GEN223R178 
 frameshift_variant 
 c.5119_5122del 
 p.Phe1707ArgfsTer7 
 Unknown 
  
 Extended multiplex 
 GEN223R179 
 intron_variant 
 c.2214dup 
 p.Tyr739ValfsTer2 
 Unknown 
  
  
 GEN223R180 
 missense_variant 
 c.1171A>C 
 p.Thr391Pro 
 De novo 
  
 Simplex 
 GEN223R181 
 frameshift_variant 
 c.4553_4554del 
 p.Lys1518ThrfsTer18 
 De novo 
  
 Multiplex 
 GEN223R182 
 stop_gained 
 c.2134C>T 
 p.Arg712Ter 
 De novo 
  
 Simplex 
 GEN223R183 
 missense_variant 
 c.4481G>A 
 p.Gly1494Glu 
 De novo 
  
 Simplex 
 GEN223R184 
 splice_site_variant 
 c.4852+1G>T 
  
 Unknown 
  
 Unknown 
 GEN223R185 
 missense_variant 
 c.3269G>C 
 p.Ser1090Thr 
 Unknown 
  
 Unknown 
 GEN223R186 
 copy_number_loss 
  
  
 Unknown 
  
  
 GEN223R187 
 frameshift_variant 
 c.5536_5539del 
 p.Lys1846SerfsTer11 
 Unknown 
  
  
 GEN223R188 
 frameshift_variant 
 c.5414_5415del 
 p.Phe1805Ter 
 Unknown 
  
  
 GEN223R189 
 missense_variant 
 c.2791C>A 
 p.Arg931Ser 
 Unknown 
  
  
 GEN223R190 
 missense_variant 
 c.2585G>A 
 p.Arg862Gln 
 Unknown 
  
  
 GEN223R191 
 missense_variant 
 c.2576G>A 
 p.Arg859His 
 Unknown 
  
  
 GEN223R192 
 stop_gained 
 c.1837C>T 
 p.Arg613Ter 
 Unknown 
  
  
 GEN223R193 
 stop_gained 
 c.1738C>T 
 p.Arg580Ter 
 Unknown 
  
  
 GEN223R194 
 missense_variant 
 c.1051T>C 
 p.Cys351Arg 
 Unknown 
  
  
 GEN223R195 
 missense_variant 
 c.2933T>C 
 p.Ile978Thr 
 Familial 
 Paternal 
  
 GEN223R196 
 missense_variant 
 c.4048G>A 
 p.Val1350Met 
 Unknown 
  
  
 GEN223R197 
 missense_variant 
 c.5300T>A 
 p.Val1767Asp 
 De novo 
  
 Simplex 
 GEN223R198 
 missense_variant 
 c.3686T>G 
 p.Leu1229Arg 
 Unknown 
  
  
 GEN223R199 
 frameshift_variant 
 c.3402_3403del 
 p.Ser1134ArgfsTer13 
 De novo 
  
  
 GEN223R200 
 stop_gained 
 c.5148C>A 
 p.Cys1716Ter 
 Unknown 
  
  
 GEN223R201 
 missense_variant 
 c.5351T>A 
 p.Val1784Asp 
 De novo 
  
 Simplex 
 GEN223R202 
 splice_site_variant 
 c.602+1G>A 
  
 De novo 
  
 Simplex 
 GEN223R203 
 missense_variant 
 c.505T>C 
 p.Ser169Pro 
 De novo 
  
 Simplex 
 GEN223R204 
 missense_variant 
 c.4868A>C 
 p.Glu1623Ala 
 De novo 
  
 Simplex 
 GEN223R205 
 missense_variant 
 c.4868A>C 
 p.Glu1623Ala 
 Familial 
 Maternal 
 Multiplex 
 GEN223R206 
 frameshift_variant 
 c.5370_5373del 
 p.Ser1790ArgfsTer10 
 De novo 
  
 Simplex 
 GEN223R207 
 missense_variant 
 c.4319C>T 
 p.Ala1440Val 
 Unknown 
  
  
 GEN223R208 
 stop_gained 
 c.2134C>T 
 p.Arg712Ter 
 Unknown 
  
  
 GEN223R209 
 missense_variant 
 c.1150T>G 
 p.Trp384Gly 
 De novo 
  
  
 GEN223R210 
 stop_gained 
 c.2101C>T 
 p.Arg701Ter 
 De novo 
  
  
 GEN223R211 
 splice_site_variant 
 c.383+1A>G 
  
 De novo 
  
  
 GEN223R212 
 splice_site_variant 
 c.602+1G>A 
  
 De novo 
  
  
 GEN223R213 
 splice_region_variant 
 c.909A>G 
 p.Thr303%3D 
 De novo 
  
  
 GEN223R214 
 inframe_deletion 
 c.1200_1202del 
 p.Met400del 
 De novo 
  
  
 GEN223R215 
 splice_site_variant 
 c.4284+2T>C 
  
 Familial 
 Paternal 
  
 GEN223R216 
 inframe_deletion 
 c.5313_5315del 
 p.Ile1772del 
 De novo 
  
  
 GEN223R217 
 frameshift_variant 
 c.4853-25T>A 
  
 Familial 
 Maternal 
  
 GEN223R218 
 missense_variant 
 c.4048G>A 
 p.Val1350Met 
 De novo 
  
 Simplex 
 GEN223R219 
 stop_gained 
 c.4302G>A 
 p.Trp1434Ter 
 De novo 
  
 Simplex 
 GEN223R220 
 missense_variant 
 c.5513C>T 
 p.Pro1838Leu 
 De novo 
  
 Multiplex (monozygotic twins) 
 GEN223R221 
 initiator_codon_variant 
 c.1A>C 
 p.Met1? 
 De novo 
  
 Simplex 
 GEN223R222 
 missense_variant 
 c.5341T>C 
 p.Tyr1781His 
 De novo 
  
 Simplex 
 GEN223R223 
 missense_variant 
 c.4439G>T 
 p.Gly1480Val 
 De novo 
  
 Simplex 
 GEN223R224 
 stop_gained 
 c.2584C>T 
 p.Arg862Ter 
 Unknown 
  
  
 GEN223R225 
 missense_variant 
 c.4310T>C 
 p.Ile1437Thr 
 Unknown 
  
  
 GEN223R226 
 frameshift_variant 
 c.1693dup 
 p.Ser565PhefsTer6 
 Unknown 
  
  
 GEN223R227 
 missense_variant 
 c.3986G>T 
 p.Arg1329Leu 
 Unknown 
  
  
 GEN223R228 
 missense_variant 
 c.3982T>C 
 p.Ser1328Pro 
 Unknown 
  
  
 GEN223R229 
 stop_gained 
 c.3637C>T 
 p.Arg1213Ter 
 Unknown 
  
  
 GEN223R230 
 missense_variant 
 c.4277T>C 
 p.Leu1426Pro 
 De novo 
  
  
 GEN223R231 
 missense_variant 
 c.2681C>G 
 p.Thr894Ser 
 Familial 
  
  
 GEN223R232 
 missense_variant 
 c.1876A>G 
 p.Ser626Gly 
 De novo 
  
 Simplex 
 GEN223R233 
 frameshift_variant 
 c.5536_5539del 
 p.Lys1846SerfsTer11 
 De novo 
  
  
 GEN223R234 
 missense_variant 
 c.5347G>A 
 p.Ala1783Thr 
 De novo 
  
  
 GEN223R235 
 splice_site_variant 
 c.602+1G>A 
  
 De novo 
  
  
 GEN223R236 
 missense_variant 
 c.437C>A 
 p.Thr146Lys 
 De novo 
  
  
 GEN223R237 
 inframe_deletion 
 c.1200_1202del 
 p.Met400del 
 De novo 
  
  
 GEN223R238 
 missense_variant 
 c.1000C>G 
 p.Leu334Val 
 De novo 
  
  
 GEN223R239 
 frameshift_variant 
 c.5962del 
 p.Arg1988GlyfsTer2 
 Unknown 
  
  
 GEN223R240 
 missense_variant 
 c.427G>A 
 p.Val143Met 
 Familial 
 Maternal 
  
 GEN223R241 
 missense_variant 
 c.2182G>A 
 p.Glu728Lys 
 De novo 
  
  
 GEN223R242 
 missense_variant 
 c.4168G>A 
 p.Val1390Met 
 Unknown 
  
 Unknown 
 GEN223R243 
 missense_variant 
 c.2576G>A 
 p.Arg859His 
 Unknown 
  
 Unknown 
 GEN223R244 
 missense_variant 
 c.3926T>G 
 p.Leu1309Arg 
 Familial 
 Paternal 
 Multiplex 
 GEN223R245 
 inframe_deletion 
 c.3493_3495del 
 p.Glu1165del 
 Unknown 
  
 Simplex 
 GEN223R246 
 missense_variant 
 c.2722G>A 
 p.Gly908Ser 
 Unknown 
  
 Multiplex 
 GEN223R247 
 splice_site_variant 
 c.602+1G>A 
  
 Unknown 
  
 Simplex 
 GEN223R248 
 frameshift_variant 
 c.4554dup 
 p.Pro1519ThrfsTer18 
 Unknown 
  
 Simplex 
 GEN223R249 
 missense_variant 
 c.677C>T 
 p.Thr226Met 
 Unknown 
  
 Simplex 
 GEN223R250 
 frameshift_variant 
 c.5010_5013del 
 p.Phe1671ThrfsTer8 
 Unknown 
  
 Simplex 
 GEN223R251 
 missense_variant 
 c.4970G>A 
 p.Arg1657His 
 Unknown 
  
 Simplex 
 GEN223R252 
 splice_site_variant 
 c.3705+5G>A 
  
 Unknown 
  
 Simplex 
 GEN223R253 
 missense_variant 
 c.5252C>T 
 p.Ser1751Leu 
 Unknown 
  
  
  et al.  
 GEN223R254 
 missense_variant 
 c.1025C>T 
 p.Ala342Val 
 De novo 
  
  
  et al.  
 GEN223R255 
 missense_variant 
 c.1025C>T 
 p.Ala342Val 
 De novo 
  
  
  et al.  
 GEN223R256 
 missense_variant 
 c.4786C>T 
 p.Arg1596Cys 
 Unknown 
  
 Simplex 
  et al.  
 GEN223R257 
 missense_variant 
 c.811G>A 
 p.Gly271Ser 
 Familial 
 Maternal 
 Multiplex 
  et al.  
 GEN223R258 
 missense_variant 
 c.305T>C 
 p.Phe102Ser 
 De novo 
  
 Simplex 
  et al.  
 GEN223R259 
 frameshift_variant 
 c.5379del 
 p.Glu1794LysfsTer7 
 Unknown 
  
 Simplex 
  et al.  
 GEN223R260 
 missense_variant 
 c.2836C>T 
 p.Arg946Cys 
 Unknown 
  
 Simplex 
  et al.  
 GEN223R261 
 missense_variant 
 c.5087T>C 
 p.Phe1696Ser 
 De novo 
  
  
  et al.  
 GEN223R262 
 missense_variant 
 c.677C>T 
 p.Thr226Met 
 De novo 
  
  
  et al.  
 GEN223R263 
 missense_variant 
 c.4378T>A 
 p.Tyr1460Asn 
 Unknown 
  
  
  et al.  
 GEN223R264 
 missense_variant 
 c.4300T>C 
 p.Trp1434Arg 
 Unknown 
  
  
  et al.  
 GEN223R265 
 splice_region_variant 
 c.2044-3C>G 
  
 Unknown 
  
  
  et al.  
 GEN223R266 
 missense_variant 
 c.2659G>A 
 p.Val887Met 
 Unknown 
  
  
  et al.  

Common

Variant ID
Polymorphism
SNP ID
Allele Change
Residue Change
Population Origin
Population Stage
Author, Year
 GEN223C001 
 intron_variant 
 rs7587026 
 c.-142+26807G>T 
 Minor allele, A 
 Discovery: 1018 MTLEHS cases, 7552 controls 
 Discovery 
 GEN223C002 
 intron_variant 
 rs7587026 
 c.-142+26807G>T 
 Minor allele, A 
 Replication: 959 MTLEHS cases, 3591 controls. 
 Replication 
 GEN223C003 
 intron_variant 
 rs11692675 
 c.264+3440A>G 
  
 Discovery: 1018 MTLEHS cases, 7552 controls; replication: 959 MTLEHS cases, 3591 controls. 
 Discovery 
Chromosome
CNV Locus
CNV Type
# of studies
Animal Model
2
Duplication
 1
 
2
Duplication
 1
 
2
Deletion
 3
 
2
Deletion
 1
 
2
Deletion
 5
 
2
Deletion
 1
 
2
Deletion
 19
 
2
Deletion
 3
 
2
Deletion
 1
 

Model Summary

Scn1a plays critical roles in the spike output from PV interneurons and, furthermore, that the specifically altered function of these inhibitory circuits may contribute to epileptic seizures.

References

Type
Title
Author, Year
Additional
Reduced sodium current in GABAergic interneurons in a mouse model of severe myoclonic epilepsy in infancy.
Primary
Nav1.1 localizes to axons of parvalbumin-positive inhibitory interneurons: a circuit basis for epileptic seizures in mice carrying an Scn1a gene mu...
Additional
Neuronal voltage-gated ion channels are genetic modifiers of generalized epilepsy with febrile seizures plus.
Additional
Autistic-like behaviour in Scn1a mice and rescue by enhanced GABA-mediated neurotransmission.
Additional
Dissecting the phenotypes of Dravet syndrome by gene deletion.
Additional
Adolescent Behavioral Abnormalities in a Scn1a +/- Mouse Model of Dravet Syndrome
Additional
Tau Reduction Prevents Key Features of Autism in Mouse Models

M_SCN1A_5_KO_HM

Model Type: Genetic
Model Genotype: Homozygous
Mutation: Targeted replacement of the last coding exon of Scn1a which encodes domain IV downstream of the S3 segment and the cytoplasmic tail.
Allele Type: Targeted (Knock Out)
Strain of Origin: 129/SvJ
Genetic Background: 129/SvJ x C57BL/6
ES Cell Line: Not Specified
Mutant ES Cell Line: Not Specified
Model Source: Not Specified

M_SCN1A_6_KO_HT

Model Type: Genetic
Model Genotype: Heterozygous
Mutation: Targeted replacement of the last coding exon of Scn1a which encodes domain IV downstream of the S3 segment and the cytoplasmic tail.
Allele Type: Targeted (Knock Out)
Strain of Origin: 129/SvJ
Genetic Background: 129/SvJ x C57BL/6
ES Cell Line: Not Specified
Mutant ES Cell Line: Not Specified
Model Source: Not Specified

M_SCN1A_1_R1407X_KI_HM

Model Type: Genetic
Model Genotype: Homozygous
Mutation: Knock-in of a premature stop codon, R1407X in exon 21 of the Scna1 gene.
Allele Type: Targeted (Knock In)
Strain of Origin: C57BL/6J
Genetic Background: C57BL/6/129(~75%/25%)
ES Cell Line: 5D8
Mutant ES Cell Line: Not Specified
Model Source: Not Specified

M_SCN1A_2_R1407X_KI_HT

Model Type: Genetic
Model Genotype: Heterozygous
Mutation: Knock-in of a premature stop codon, R1407X in exon 21 of the Scna1 gene.
Allele Type: Targeted (Knock In)
Strain of Origin: C57BL/6J
Genetic Background: C57BL/6/129(~75%/25%)
ES Cell Line: 5D8
Mutant ES Cell Line: Not Specified
Model Source: Not Specified

M_SCN1A_7_R1648H_HT

Model Type: Genetic
Model Genotype: Heterozygous
Mutation: Knock-in of a mutation R1648H into Scna1 gene.
Allele Type: Targeted (Knock Out)
Strain of Origin: Not Specified
Genetic Background: 129S6.C57BL/6J
ES Cell Line: Not Specified
Mutant ES Cell Line: Not Specified
Model Source: Not Specified

M_SCN1A_8_CKO_HT

Model Type: Genetic
Model Genotype: Heterozygous
Mutation: Conditional deletion of exon 25 of the Scn1a gene which encodes domain IV downstream of the S3 segment and the cytoplasmic tail using DlxI12b-Cre in a majority of gabaergic neurons of the forebrain
Allele Type: Conditional loss-of-function
Strain of Origin: Not specified
Genetic Background: Not Specified
ES Cell Line: Not specified
Mutant ES Cell Line: Not specified
Model Source: Not specified

M_SCN1A_10_CKO_HT_SSTN

Model Type: Genetic
Model Genotype: Heterozygous
Mutation: Conditional heterozygous deletion of exon 25 of Scn1a using SST-cre in somatostatin expressing interneurons. Authors assess Martinotti cells
Allele Type: Conditional loss-of-function
Strain of Origin:
Genetic Background: C57BL/6J
ES Cell Line:
Mutant ES Cell Line:
Model Source:

M_SCN1A_11_CKO_HT_PVALBN_SSTN

Model Type: Genetic
Model Genotype: Heterozygous
Mutation: Conditional hetereozygous deletion of exon 21 of Scn1a gene using Pvalb-Cre and SST-cre in neurons expressing both SST and Pvalb, some of these neurons are called oriens lacunosum-moleculare cells in the hippocampus they regulate the action potential firing of CA1 pyramidal cells
Allele Type: Conditional loss-of-function
Strain of Origin:
Genetic Background: C57BL/6J
ES Cell Line:
Mutant ES Cell Line:
Model Source:

M_SCN1A_12_CKO_HT_PVALBN

Model Type: Genetic
Model Genotype: Heterozygous
Mutation: Conditional hetereozygous deletion of exon 21 of the Scn1a gene using Pvalb-cre in parvalbumin expressing interneurons
Allele Type: Conditional loss-of-function
Strain of Origin:
Genetic Background: C57BL/6J
ES Cell Line:
Mutant ES Cell Line:
Model Source:

M_SCN1A_13_CKO_HT_SSTN

Model Type: Genetic
Model Genotype: Heterozygous
Mutation: Conditional hetereozygous deletion of exon 21 of the Scn1a gene using SST-cre in somatostatin expressing interneurons
Allele Type: Conditional loss-of-function
Strain of Origin:
Genetic Background: C57BL/6J
ES Cell Line:
Mutant ES Cell Line:
Model Source:

M_SCN1A_14_CKO_HT_PVALBN_SSTN

Model Type: Genetic
Model Genotype: Heterozygous
Mutation: Conditional heterozygous deletion of exon 21 of Scn1a gene using Pvalb-cre (with homozygous expression) and SST-cre (with heterozygous expression) in parvalbumin and somatostatin expressing interneurons
Allele Type: Conditional loss-of-function
Strain of Origin:
Genetic Background: C57BL/6J
ES Cell Line:
Mutant ES Cell Line:
Model Source:

M_SCN1A_15_CKO_HM-PVALBN

Model Type: Genetic
Model Genotype: Homozygous
Mutation: Conditional deletion of exon 21 of the Scn1a gene using Pvalb-cre, in parvalbumin expressing interneurons
Allele Type: Conditional loss-of-function
Strain of Origin:
Genetic Background: C57BL/6J
ES Cell Line:
Mutant ES Cell Line:
Model Source:

M_SCN1A_16_CKO_HM_SSTN

Model Type: Genetic
Model Genotype: Homozygous
Mutation: Conditional deletion of exon 21 of the Scn1a gene using SST-cre, in somatostatin expressing interneurons
Allele Type: Conditional loss-of-function
Strain of Origin:
Genetic Background: C57BL/6J
ES Cell Line:
Mutant ES Cell Line:
Model Source:

M_SCN1A_17_CKO_HM_PVALBN_SSTN

Model Type: Genetic
Model Genotype: Homozygous
Mutation: Conditional deletion of exon 21 of the Scn1a gene using Pvalb-Cre and SSTN-cre in neurons expressing both SST and Pvalb, some of these neurons are called oriens lacunosum-moleculare cells in the hippocampus they regulate the action potential firing of CA1 pyramidal cells
Allele Type: Conditional loss-of-function
Strain of Origin:
Genetic Background: C57BL/6J
ES Cell Line:
Mutant ES Cell Line:
Model Source:

M_SCN1A_9_CKO_HT_PVALBN

Model Type: Genetic
Model Genotype: Heterozygous
Mutation: Conditional deletion of exon 25 of the Scn1a gene using Pvalb-Cre in parvalbumin expressing interneurons. Authors state that this model has Scn1a haploinsufficiency only in neurons that have a very high expression of Pvalb
Allele Type: Conditional loss-of-function
Strain of Origin:
Genetic Background: C57BL/6J
ES Cell Line:
Mutant ES Cell Line:
Model Source:

M_SCN1A_18_KO_HT

Model Type: Genetic
Model Genotype: Heterozygous
Mutation: Mice with targeted deletion of Scn1a exon 1 (Scn1a^tm1Kea) during adolescence were generated by replacing exon1 with a loxP-flanked PGKneo cassette.
Allele Type: Targeted (Knock Out)
Strain of Origin: 129S6/SvEvTac
Genetic Background: 129S6/SvEvTac*C57BL/6J
ES Cell Line:
Mutant ES Cell Line:
Model Source: Jackson Laboratory (stock 37107-JAX; Bar Harbor, MA, USA)

M_SCN1A_5_KO_HM

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
Ion influx and permeability: sodium1
Decreased
Description: Decreased sodium current amplitude in hippocampal interneurons
Exp Paradigm: Whole-cell patch-clamp recordings of interneurons
 Whole-cell patch clamp
 Unreported
Action potential property: firing rate1
Abnormal
Description: Abnormal action potential firing in interneurons demonstrated by the number of action potentials hitting a peak and decling with increasing current, reduced amplitude and broadened width, greater peak and more negative minimum voltage of actino potential
Exp Paradigm: Whole-cell patch-clamp recordings in response to injected current of interneurons
 Whole-cell patch clamp
 Unreported
Seizures1
Increased
Description: Increased incidence of seizures leading progressively to mild limb tremors, side-to-side swaying and loss of postural control
Exp Paradigm: General observations
 General observations
 P9
Seizures1
Increased
Description: Increased periodic generalized clonic and bilateral forelimb convulsive seizures
Exp Paradigm: General observations
 General observations
 P15
Size/growth1
Decreased
Description: Decreased weight
Exp Paradigm: General observations
 General observations
 P15
Mortality/lethality1
Increased
Description: Increased postnatal lethality
Exp Paradigm: General observations
 General observations
 P15
Protein expression level evidence1
Decreased
Description: Decreased expression of scn1a throughout brain
Exp Paradigm: Scn1a protein expression
 Immunohistochemistry
 Unreported
Protein expression level evidence1
Increased
Description: Increased expression of scn3a in hippocampal interneurons
Exp Paradigm: Scn3a protein expression
 Immunohistochemistry
 Unreported
General characteristics1
 No change
 General observations
 P15
Protein expression level evidence1
 No change
 Immunohistochemistry
 Unreported
Neuronal number: purkinje cells1
 No change
 Immunohistochemistry
 Unreported
Ion influx and permeability: sodium1
 No change
 Whole-cell patch clamp
 Unreported
 Not Reported: Circadian sleep/wake cycle, Communications, Emotion, Immune response, Learning & memory, Maternal behavior, Motor phenotype, Physiological parameters, Repetitive behavior, Sensory, Social behavior

M_SCN1A_6_KO_HT

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
General locomotor activity2
Increased
Description: Increased locomotor activity indicated by significantly higher distance traveled
Exp Paradigm: Open field test
 Open field test
 6-8 months
Action potential property: firing rate1
Abnormal
Description: Abnormal action potential firing in interneurons demonstrated by the number of action potentials hitting a peak and decling with increasing current, reduced amplitude and broadened width, greater peak and more negative minimum voltage of actino potential
Exp Paradigm: Whole-cell patch-clamp recordings in response to injected current of interneurons
 Whole-cell patch clamp
 Unreported
Synaptic transmission: excitatory2
Increased
Description: Increased frequency of spontaenous excitator postsynaptic current (epsc) in hippocampal ca1 and pre-frontal cortical slices
Exp Paradigm: Whole-cell patch-clamp recordingsof hippocampal and pre frontal cortical slices
 Whole-cell patch clamp
 Unreported
Miniature post synaptic currents: inhibitory2
Decreased
Description: Decreased frequency of spontaenous inhibitory postsynaptic current (ipsc) in hippocampal ca1 and pre-frontal cortical slices
Exp Paradigm: Whole-cell patch-clamp recordingsof hippocampal and pre frontal cortical slices
 Whole-cell patch clamp
 Unreported
Ion influx and permeability: sodium1
Decreased
Description: Decreased sodium current amplitude in hippocampal interneurons
Exp Paradigm: Whole-cell patch-clamp recordings of interneurons
 Whole-cell patch clamp
 Unreported
Circling2
Increased
Description: Increased circling behavior
Exp Paradigm: Open field test
 Open field test
 6-8 months
Self grooming: perseveration2
Increased
Description: Increased time spent self grooming in open field
Exp Paradigm: Open field test
 Open field test
 6-8 months
Seizures1
Increased
Description: Increased occurrence of spontaenous electrographic and/or behavioral seizure as well as epileptigorm interictal activity
Exp Paradigm: Video/electroencephalogram analysis
 Electroencephalogram (eeg)
 4 months
Seizures1
Increased
Description: Increased incidence of spontaenous behavior seizures
Exp Paradigm: General observations
 General observations
 P21-27
Olfaction2
Abnormal
Description: Abnormal olfactory habituation/dishabituation demonstrated by normal response to food but failure to show habituation/dishabituation to banana or male urine
Exp Paradigm: NA
 NA
 6-8 months
Social interaction2
Decreased
Description: Decreased social interaction demonstrated by less interaction with caged stranger mouse in open field
Exp Paradigm: Open field social interaction test with caged stranger mouse
 Reciprocal social interaction test
 6-8 months
Social interaction2
Decreased
Description: Decreased social preference demonstrated by no difference in interaction between inanimate object and caged stranger mouse in open field
Exp Paradigm: Open field social interaction test with simultaneous introduction of caged stranger mouse and inanimate object
 Reciprocal social interaction test
 6-8 months
Nest building behavior2
Decreased
Description: Decreased nest building behavior
Exp Paradigm: NA
 NA
 6-8 months
Social withdrawal2
Increased
Description: Increased immobilization behavior showing decreased distance traveled and increased immobilization time
Exp Paradigm: Reciprocal social interactions of freely moving mutant and wild-type littermates with test mice
 Reciprocal social interaction test
 6-8 months
Social interaction2
Decreased
Description: Decreased social interaction; avoidance of of environmental change indicated by no preference for banana and male urine
Exp Paradigm: Y-maze olfactory choice test with banana and male urine
 Y-maze test
 6-8 months
Aggression2
Decreased
Description: Decreased duration of both aggressive and non-aggressive interactions
Exp Paradigm: Reciprocal social interactions of freely moving mutant and wild-type littermates with test mice
 Reciprocal social interaction test
 6-8 months
Social scent marking or recognition2
Decreased
Description: Decreased social odor olfaction as demonstrated by decreased preference for social odors
Exp Paradigm: Modified three-chambered experiements with petri dish using bedding from male or female cages as social odor
 Three-chamber social approach test
 6-8 months
Social interaction2
Decreased
Description: Decreased social interaction demonstrated by no preference for stranger mouse
Exp Paradigm: Three chambered experiment with stranger mouse in the cage in one chamber
 Three-chamber social approach test
 6-8 months
Social interaction2
Decreased
Description: Decreased social preference demonstrated by no preference between new vs. familiar mouse
Exp Paradigm: Three chambered experiment with second stranger mouse in unoccupied chamber to assess the discrimination between a new and a familiarmouse
 Three-chamber social approach test
 6-8 months
Mortality/lethality1
Increased
Description: Increased sporadic lethality
Exp Paradigm: General observations
 General observations
 P21-27
Anxiety2
Increased
Description: Increased anxiety demonstrated by less time spent in center of the open field
Exp Paradigm: Open field test
 Open field test
 6-8 months
Anxiety2
Increased
Description: Increased anxiety demonstrated by less frequency of entry and time spent in open arms
Exp Paradigm: Elevated plus maze test
 Elevated plus maze test
 6-8 months
Spatial reference memory2
Decreased
Description: Decrease spatial memory
Exp Paradigm: Barnes' circular maze test
 Barnes maze test
 6-8 months
Spatial learning2
Decreased
Description: Decreased spatial learning during four days of training to find a dark hole at the periphery of a brightly lighted circular field
Exp Paradigm: Barnes' circular maze test
 Barnes maze test
 6-8 months
Cued or contextual fear conditioning: memory of context2
Decreased
Description: Decreased context dependent fear learning demonstrated by reduced freezing behavior
Exp Paradigm: Context-dependent fear-conditioning test
 Fear conditioning test
 6-8 months
Protein expression level evidence2
Decreased
Description: Decreased expression of scn1a in gabaergic interneurons throughout cortex and hippocampus
Exp Paradigm: Scn1a protein expression
 Immunohistochemistry
 10 months
Protein expression level evidence1
Increased
Description: Increased expression of scn3a in hippocampal interneurons
Exp Paradigm: Scn3a protein expression
 Immunohistochemistry
 Unreported
Neuronal number: purkinje cells2
 No change
 NA
 10 months
Ion influx and permeability: sodium1
 No change
 Whole-cell patch clamp
 Unreported
Miniature post synaptic currents: inhibitory2
 No change
 Whole-cell patch clamp
 Unreported
Olfaction2
 No change
 Three-chamber social approach test
 6-8 months
Olfaction2
 No change
 NA
 6-8 months
 Not Reported: Circadian sleep/wake cycle, Communications, Developmental profile, Emotion, Immune response, Learning & memory, Maternal behavior, Motor phenotype, Neuroanatomy / ultrastructure / cytoarchitecture, Physiological parameters, Repetitive behavior, Seizure, Sensory, Social behavior

M_SCN1A_1_R1407X_KI_HM

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
Gait1
Abnormal
Description: Abnormal and unstable gait
Exp Paradigm: NA
 NA
 Unreported
Brain size1
Decreased
Description: Decreased brain size
Exp Paradigm: NA
 NA
 Unreported
Seizures1
Increased
Description: Increased recurrent spontaneous seizures - stonic-clonic and clonic seizures, rhythmic jerking, involuntary muscle contraction
Exp Paradigm: General observations
 General observations
 P12-p16
Seizures1
Increased
Description: Increased ictal ecog patterns consisting of 1-4 hz polyspike-wave discharges
Exp Paradigm: Electrocorticograph recordings
 Electrocorticogram (ecog)
 P14-p16
Size/growth1
Decreased
Description: Decreased body weight
Exp Paradigm: General observations
 General observations
 P14-p15
Mortality/lethality1
Increased
Description: Increased lethality resulting in a mean life-time of 15.8 days
Exp Paradigm: General observations
 General observations
 3 weeks
Gene expression1
Decreased
Description: Decreased scn1a mrna expression in brain
Exp Paradigm: Scn1a mrna epxression
 Northern blot
 Unreported
General characteristics1
 No change
 General observations
 Unreported
Protein expression level evidence1
 No change
 Western blot
 Unreported
Brain morphology1
 No change
 Histology
 Unreported
 Not Reported: Circadian sleep/wake cycle, Communications, Emotion, Immune response, Learning & memory, Maternal behavior, Neurophysiology, Physiological parameters, Repetitive behavior, Sensory, Social behavior

M_SCN1A_2_R1407X_KI_HT

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
General locomotor activity2
Increased
Description: Increased locomotor activity
Exp Paradigm: NA
 Open field test
 2.5, 3.5, 6, 10 months
Brain size2
Increased
Description: Increased brain volume
Exp Paradigm: NA
 Measurement of tissue volume
 9-10 months
Hippocampal morphology2
Increased
Description: Increased volume of the hippocampus and dentate gyrus
Exp Paradigm: NA
 Histology
 9-10 months
Brain size1
Decreased
Description: Decreased brain size
Exp Paradigm: NA
 NA
 Unreported
Brain size2
Increased
Description: Increased brain weight
Exp Paradigm: NA
 Measurement of tissue weight
 2.6-9.1 months
Brain size2
Increased
Description: Increased brain volume at 3.4 months, no change in brain volume at 1.5 months
Exp Paradigm: NA
 Measurement of tissue volume
 9-10 months
Synaptic transmission1
Decreased
Description: Decreased spike amplitude during prolonged spike trains
Exp Paradigm: Patch-clamp recordings from neurons in neocortical slices
 Whole-cell patch clamp
 3-4 weeks
Self grooming: perseveration2
Increased
Description: Increased time spent self grooming
Exp Paradigm: NA
 Novel cage test
 4-7 months, 6 months
Social interaction2
Decreased
Description: Decreased time spent sniffing genotype-, age-, and sex-matched unfamiliar mice
Exp Paradigm: NA
 Reciprocal social interaction test
 4-7 months
Social approach2
Decreased
Description: Decreased time spent interacting with social stimulus versus an empty enclosure at 4-7 months, 6-7 months, 10-11 months, no change in time spent interacting with social stimulus versus an empty enclosure at 2-3 months
Exp Paradigm: NA
 Three-chamber social approach test
 2-7 months
Social scent marking or recognition2
Decreased
Description: Decreased responsiveness to social odors and degrees of habituation and dishabituation behavior after sequential exposure to these odors
Exp Paradigm: NA
 Olfactory habituation-dishabituation test
 4-7 months
Mortality/lethality1
Increased
Description: Increased lethality with ~25% and 40% dying sporadically within the first and third postnatal months respectively
Exp Paradigm: General observations
 General observations
 1-3 months
Cognitive flexibility2
Decreased
Description: Increased number of training sessions required to reach platform when moved to the opposite arm
Exp Paradigm: NA
 Water t-maze test
 4-7 months
Signaling: pi3k/akt pathway2
Increased
Description: Increased hippocampal pakt protein levels
Exp Paradigm: Pakt
 Immunohistochemistry
 1 month
Protein phosphorylation2
Increased
Description: Increased phosphorylation of s6 at ser235/236 and ser240/244
Exp Paradigm: Ps6
 Western blot
 2-3 months
Signaling: pi3k/akt pathway2
Increased
Description: Increased hippocampal levels of phosphorylated akt, no change in hippocampal levels of phosphorylated akt at p10
Exp Paradigm: Pakt
 Western blot
 P10-10 months
Signaling: mtor pathway2
Increased
Description: Increased hippocampal ps6 protein levels
Exp Paradigm: Ps6
 Immunohistochemistry
 1 month
Signaling: mtor pathway2
Increased
Description: Increased hippocampal levels of phosphorylated s6, no change in hippocampal levels of phosphorylated s6 at p10
Exp Paradigm: Ps6
 Western blot
 P10-10 months
Size/growth2
 No change
 Body weight measurement
 0.5-4.5 months
Olfactory learning and memory2
 No change
 Olfactory habituation-dishabituation test
 4-7 months
Spatial working memory2
 No change
 Water t-maze test
 4-7 months
General locomotor activity2
 No change
 Open field test
 1.4, 1.7 months
Brain morphology2
 No change
 Measurement of tissue density
 1.5, 3.4 months
Brain morphology2
 No change
 Measurement of tissue density
 2.6 months
Brain morphology1
 No change
 Histology
 Unreported
Brain size2
 No change
 Measurement of tissue weight
 0.5-1.4 months
Synaptic transmission1
 No change
 Whole-cell patch clamp
 3-4 weeks
Self grooming: perseveration2
 No change
 Novel cage test
 1-7 months
Seizures1
 No change
 General observations
 P12-p16
 Not Reported: Circadian sleep/wake cycle, Communications, Emotion, Immune response, Learning & memory, Maternal behavior, Molecular profile, Motor phenotype, Physiological parameters, Repetitive behavior, Sensory, Social behavior

M_SCN1A_7_R1648H_HT

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
Seizures1
Decreased
Description: Decreased latency to chemically induced generalized tonic-clonic seizures
Exp Paradigm: Susceptibility to seizures induced by flurothyl
 Maximal electroconvulsive seizure threshold test
 Unreported
Mortality/lethality1
Increased
Description: Increased lethality from sporadic death
Exp Paradigm: General observations
 General observations
 P24
Seizures1
 No change
 Observation of seizures
 Unreported
 Not Reported: Circadian sleep/wake cycle, Communications, Emotion, Immune response, Learning & memory, Maternal behavior, Molecular profile, Motor phenotype, Neuroanatomy / ultrastructure / cytoarchitecture, Neurophysiology, Physiological parameters, Repetitive behavior, Sensory, Social behavior

M_SCN1A_8_CKO_HT

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
General locomotor activity1
Increased
Description: Increased locomotor activity indicated by significantly higher distance traveled
Exp Paradigm: Open field test
 Open field test
 3-5 months
Circling1
Increased
Description: Increased circling behavior
Exp Paradigm: Open field test
 Open field test
 3-5 months
Social interaction1
Decreased
Description: Decreased social preference demonstrated by no preference between mouse chamber and inanimate-object chamber
Exp Paradigm: Three chambered experiment with mouse in one chamber and inanimate object in the other
 Three-chamber social approach test
 3-5 months
Social interaction1
Decreased
Description: Decreased social interaction demonstrated by less interaction with caged stranger mouse in open field
Exp Paradigm: Open field social interaction test with caged stranger mouse
 Reciprocal social interaction test
 3-5 months
Anxiety1
Increased
Description: Increased anxiety demonstrated by less time spent in center of the open field
Exp Paradigm: Open field test
 Open field test
 3-5 months
Anxiety1
Increased
Description: Increased anxiety demonstrated by less frequency of entry and time spent in open arms
Exp Paradigm: Elevated plus maze test
 Elevated plus maze test
 3-5 months
Cued or contextual fear conditioning: memory of context1
Decreased
Description: Decreased context dependent fear learning demonstrated by reduced freezing behavior
Exp Paradigm: Context-dependent fear-conditioning test
 Fear conditioning test
 3-5 months
 Not Reported: Circadian sleep/wake cycle, Communications, Developmental profile, Immune response, Maternal behavior, Molecular profile, Neuroanatomy / ultrastructure / cytoarchitecture, Neurophysiology, Physiological parameters, Seizure, Sensory

M_SCN1A_10_CKO_HT_SSTN

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
Hyperactivity1
Increased
Description: Distance travelled by the sst scn1a cko mice was significantly increased in the open field test indicating increased hyperactivity.
Exp Paradigm: NA
 Open field test
 NA
Intrinsic membrane properties1
Increased
Description: The threshold and rheobase for themartinotti cells, sst expressing neurons is increased significantly in scn1a cko mice ( sst-scn1a cko)
Exp Paradigm: NA
 Whole-cell current clamp
 P21-24
Action potential property: firing rate1
Decreased
Description: As a result of an increase in the threshold and rheobase of action potential generation, there is a significant reduction in action potential firing frequency in scn1a cko in layer v martinotti cells
Exp Paradigm: NA
 Whole-cell current clamp
 P21-24
Seizure threshold1
Decreased
Description: There was a significant increase in the seizures in sst-scn1a cko mice had seizures at around 42 degres celsius, indicating a decrease in the threshold for seizure induction
Exp Paradigm: NA
 Observation of thermally induced seizures
 5 weeks
Absence seizures1
Increased
Description: Video eeg recordings revealed brief episodes of cortical discharge patterns with no associated convulsions indicating instances of absence seizures
Exp Paradigm: NA
 Electroencephalogram (eeg)
 P21-p35
Cued or contextual fear conditioning: memory of context1
 No change
 Fear conditioning test
 NA
Spontaneous post synaptic events: excitatory currents1
 No change
 Whole-cell patch clamp
 P21-24
Spontaneous post synaptic events: inhibitory currents1
 No change
 Whole-cell patch clamp
 P21-24
Seizure threshold1
 No change
 Observation of thermally induced seizures
 P21
Seizures1
 No change
 Observation of seizures
 P22-p26
Social approach1
 No change
 Three-chamber social approach test
 NA
 Not Reported: Circadian sleep/wake cycle, Communications, Developmental profile, Emotion, Immune response, Maternal behavior, Molecular profile, Neuroanatomy / ultrastructure / cytoarchitecture, Physiological parameters, Repetitive behavior, Sensory

M_SCN1A_11_CKO_HT_PVALBN_SSTN

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
Hyperactivity1
Increased
Description: Distance travelled by the double cko scn1a mice was significantly increased in the open field test indicating increased hyperactivity.
Exp Paradigm: NA
 Open field test
 NA
Decay kinetics of evoked post synaptic currents1
Decreased
Description: There is a shortening of the excitatory postsynaptic potential half-width indicating and time integral of depolarization during epsp in double scn1a cko
Exp Paradigm: NA
 Whole-cell patch clamp
 P21-24
Action potential property: firing rate1
Decreased
Description: As a result of an increase in the threshold and rheobase of action potential generation, there is a significant reduction in action potential firing frequency in double scn1a cko oriens lacunosum- moleculare (ol-m) cells
Exp Paradigm: NA
 Whole-cell current clamp
 P21-24
Synaptic transmission: excitatory1
Decreased
Description: Excitatory synaptic transmission is decreased as the threshold for synaptically evoked action potential is about 7 mv more depolarized
Exp Paradigm: NA
 Whole-cell patch clamp
 P21-24
Intrinsic membrane properties1
Increased
Description: The threshold and rheobase for the (ol-m) cells, sst and pv expressing neurons is increased significantly in scn1a cko mice ( double scn1a cko)
Exp Paradigm: NA
 Whole-cell current clamp
 P21-24
Seizure threshold1
Decreased
Description: At the age of 5 weeks the double scn1a cko mice had earlier onset ( temperature less than 42) and longer duration of the thermally induced seizure
Exp Paradigm: NA
 Observation of thermally induced seizures
 5 weeks
Seizure threshold1
Decreased
Description: 88% of double scn1a cko mice have thermally induced seizures at around 42 degrees celsius
Exp Paradigm: NA
 Observation of thermally induced seizures
 P21
Social approach1
Decreased
Description: Double scn1a cko mice have no preference for stranger mouse over empty cage unlike control mice
Exp Paradigm: NA
 Three-chamber social approach test
 NA
Cued or contextual fear conditioning: memory of context1
 No change
 Fear conditioning test
 NA
Seizures1
 No change
 Observation of seizures
 P22-p26
 Not Reported: Circadian sleep/wake cycle, Communications, Developmental profile, Emotion, Immune response, Maternal behavior, Molecular profile, Neuroanatomy / ultrastructure / cytoarchitecture, Physiological parameters, Repetitive behavior, Sensory

M_SCN1A_12_CKO_HT_PVALBN

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
Seizure threshold1
Decreased
Description: Pv-hm- scn1a cko mice have thermally induced seizures at around 42 degrees celsius starting at p21, indicating increasing expression of cre in pv positive neurons aggravates the susceptibility to thermally induced seizures and they begin to manifest at p21
Exp Paradigm: NA
 Observation of thermally induced seizures
 P21
Seizure threshold1
Decreased
Description: At the age of 5 weeks all pv-hm- scn1a cko mice manifest thermally induced seizure
Exp Paradigm: NA
 Observation of thermally induced seizures
 5 weeks
Absence seizures1
Increased
Description: Video eeg recordings revealed brief episodes of cortical discharge patterns with no associated convulsions indicating instances of absence seizures
Exp Paradigm: NA
 Electroencephalogram (eeg)
 P22-p26
Cued or contextual fear conditioning: memory of context1
 No change
 Fear conditioning test
 NA
Seizures1
 No change
 Electroencephalogram (eeg)
 P22-p26
Seizures1
 No change
 Observation of seizures
 P22-p26
 Not Reported: Circadian sleep/wake cycle, Communications, Developmental profile, Emotion, Immune response, Maternal behavior, Molecular profile, Motor phenotype, Neuroanatomy / ultrastructure / cytoarchitecture, Neurophysiology, Physiological parameters, Repetitive behavior, Sensory, Social behavior

M_SCN1A_13_CKO_HT_SSTN

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
Seizure threshold1
Decreased
Description: There was a significant increase in the seizures in sst-hm-scn1a cko mice had seizures at around 42 degres celsius, indicating a decrease in the threshold for seizure induction,similar to the mice expressing cre under sst promoter in only one copy
Exp Paradigm: NA
 Observation of thermally induced seizures
 5 weeks
Absence seizures1
Increased
Description: Video eeg recordings revealed brief episodes of cortical discharge patterns with no associated convulsions indicating instances of absence seizures,similar to the mice expressing cre under sst promoter in only one copy
Exp Paradigm: NA
 Electroencephalogram (eeg)
 P21-p35
Seizure threshold1
 No change
 Observation of thermally induced seizures
 P21
Seizures1
 No change
 Electroencephalogram (eeg)
 P22-p26
Seizures1
 No change
 Observation of seizures
 P22-p26
 Not Reported: Circadian sleep/wake cycle, Communications, Developmental profile, Emotion, Immune response, Learning & memory, Maternal behavior, Molecular profile, Motor phenotype, Neuroanatomy / ultrastructure / cytoarchitecture, Neurophysiology, Physiological parameters, Repetitive behavior, Sensory, Social behavior

M_SCN1A_14_CKO_HT_PVALBN_SSTN

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
Seizure threshold1
Decreased
Description: Pv-hm, sst-ht-scn1a cko have decreased seizure induction threshold and have thermally induced seizures at p21
Exp Paradigm: NA
 Observation of thermally induced seizures
 P21
Absence seizures1
Increased
Description: Video eeg show that pv-hm, sst-ht-scn1a cko have increased episodes of abnormal cortical discharge with no outward convulsions
Exp Paradigm: NA
 Electroencephalogram (eeg)
 P22-p26
Seizure threshold1
Decreased
Description: Pv-hm, sst-ht-scn1a cko have decreased seizure induction threshold and have thermally induced seizures at p35 ( 5 weeks) of age as well
Exp Paradigm: NA
 Observation of thermally induced seizures
 5 weeks
Cued or contextual fear conditioning: memory of context1
Decreased
Description: Pv-hm, sst-ht-scn1a cko mice have poor memory of context in the fear conditioning test, 24 hrs after being exposed to a foot shock in the context. their level of freezing is much reduced
Exp Paradigm: NA
 Fear conditioning test
 NA
Object recognition memory1
 No change
 Novel object recognition test
 NA
Spatial learning1
 No change
 Barnes maze test
 NA
Spatial reference memory1
 No change
 Barnes maze test
 NA
Spatial working memory1
 No change
 Y-maze test
 NA
Seizures1
 No change
 Electroencephalogram (eeg)
 P22-p26
Seizures1
 No change
 Observation of seizures
 P22-p26
 Not Reported: Circadian sleep/wake cycle, Communications, Developmental profile, Emotion, Immune response, Maternal behavior, Molecular profile, Motor phenotype, Neuroanatomy / ultrastructure / cytoarchitecture, Neurophysiology, Physiological parameters, Repetitive behavior, Sensory, Social behavior

M_SCN1A_15_CKO_HM-PVALBN

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
Ataxia1
Increased
Description: Pv- scn1a hm cko mice exhibit severe ataxia
Exp Paradigm: NA
 General observations
 NA
Seizure threshold1
Decreased
Description: Pv- scn1a hm cko mice have significantly reduced seizure threshold as they have seizures at temperatures lower than 40 degrees celsius
Exp Paradigm: NA
 Observation of thermally induced seizures
 P21
Seizures1
Increased
Description: Pv- scn1a hm cko mice have significant increase in convulsive seizures
Exp Paradigm: Observation of seizures
 Observation of seizures
 P22-p26
Seizures1
Increased
Description: Pv- scn1a hm cko mice have significant increase in convulsive seizures
Exp Paradigm: Electroencephalogram (eeg): video
 Electroencephalogram (eeg)
 P22-p26
Mortality/lethality1
Increased
Description: Homozygous cko of scn1a in pv neurons (pv- scn1a hm cko) mice have increased mortality as only 40% survive by 3 months of age
Exp Paradigm: NA
 Survival analysis
 3 months
 Not Reported: Circadian sleep/wake cycle, Communications, Emotion, Immune response, Learning & memory, Maternal behavior, Molecular profile, Neuroanatomy / ultrastructure / cytoarchitecture, Neurophysiology, Physiological parameters, Repetitive behavior, Sensory, Social behavior

M_SCN1A_16_CKO_HM_SSTN

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
Seizure threshold1
Decreased
Description: Sst-scn1a hm cko mice had seizures at high temperature similar to sst-scn1a het ckos
Exp Paradigm: NA
 Observation of thermally induced seizures
 P21
Mortality/lethality1
 No change
 General observations
 NA
Seizures1
 No change
 Observation of seizures
 P22-p26
 Not Reported: Circadian sleep/wake cycle, Communications, Emotion, Immune response, Learning & memory, Maternal behavior, Molecular profile, Motor phenotype, Neuroanatomy / ultrastructure / cytoarchitecture, Neurophysiology, Physiological parameters, Repetitive behavior, Sensory, Social behavior

M_SCN1A_17_CKO_HM_PVALBN_SSTN

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
Ataxia1
Increased
Description: Double pv,sst- scn1a hm cko have increased ataxia
Exp Paradigm: NA
 NA
 NA
Seizure threshold1
Decreased
Description: Double pv, sst- scn1a hm cko have severe reduction in seizure threshold and have seizures at low temperatures of only slightly above 37 degrees celsius.
Exp Paradigm: NA
 NA
 P21
Mortality/lethality1
Increased
Description: Double pv,sst- scn1a hm cko have had frequent spontaneous death
Exp Paradigm: NA
 NA
 1-3 months
 Not Reported: Circadian sleep/wake cycle, Communications, Emotion, Immune response, Learning & memory, Maternal behavior, Molecular profile, Neuroanatomy / ultrastructure / cytoarchitecture, Neurophysiology, Physiological parameters, Repetitive behavior, Sensory, Social behavior

M_SCN1A_9_CKO_HT_PVALBN

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
Spontaneous post synaptic events: excitatory currents1
Increased
Description: The frequency of spontaneous epscs are increased in the neurons that are connected to fast spiking pv neurons, but get reduced inhibitory input in pv-scn1a cko
Exp Paradigm: NA
 Whole-cell patch clamp
 P21-24
Intrinsic membrane properties1
Increased
Description: The threshold and rheobase for the fast spiking, pv expressing neurons is increased significantly in scn1a cko mice (pv-scn1a cko)
Exp Paradigm: NA
 Whole-cell current clamp
 P21-24
Action potential property: firing rate1
Decreased
Description: As a result of an increase in the threshold and rheobase of action potential generation there is a significant reduction in action potential firing frequency in scn1a cko in pv cells
Exp Paradigm: NA
 Whole-cell current clamp
 P21-24
Spontaneous post synaptic events: inhibitory currents1
Decreased
Description: The frequency of action potential driven, spontaneous ipscs are decreased in the neurons that are inhibited by fast spiking pv neurons (as the fs neurons have reduced action potential firing)
Exp Paradigm: NA
 Whole-cell patch clamp
 P21-24
Seizure threshold1
Decreased
Description: There was a significant increase in the seizures, where 50% of pv-scn1a cko mice had seizures at around 42 degres celsius,indicating a decrease in the threshold for seizure induction
Exp Paradigm: NA
 Observation of thermally induced seizures
 5 weeks
Social approach1
Decreased
Description: Pv-scn1a cko mice have no preference for interaction with a stranger mouse compared to empty cage, unlike control animals
Exp Paradigm: NA
 Three-chamber social approach test
 NA
Cued or contextual fear conditioning: memory of context1
 No change
 Fear conditioning test
 NA
Hyperactivity1
 No change
 Open field test
 Adult
Spontaneous post synaptic event amplitude: excitatory currents1
 No change
 Whole-cell patch clamp
 P21-24
Spontaneous post synaptic event amplitude: inhibitory currents1
 No change
 Whole-cell patch clamp
 P21-24
Seizure threshold1
 No change
 Observation of thermally induced seizures
 P21
Seizures1
 No change
 Observation of seizures
 P22-p26
 Not Reported: Circadian sleep/wake cycle, Communications, Developmental profile, Emotion, Immune response, Maternal behavior, Molecular profile, Neuroanatomy / ultrastructure / cytoarchitecture, Physiological parameters, Repetitive behavior, Sensory

M_SCN1A_18_KO_HT

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
Startle response: acoustic stimulus1
Decreased
Description: Mutants show decreased startle amplitude.
Exp Paradigm: NA
 Acoustic startle reflex test
 P34-37
Social memory1
Decreased
Description: Mutants spent less time interacting with a novel mouse over a familiar mouse.
Exp Paradigm: NA
 Three-chamber social approach test
 P34-37
Fear response1
Decreased
Description: Mutants show no increase in freezing behavior immediately following the footshock.
Exp Paradigm: NA
 Fear conditioning test
 P34-37
Anxiety1
Increased
Description: Mutants spent less time in the center over the 10 minute course of the test. mutants spent progressively more time in the center with time but still spent an overall less time in the center compared with controls.
Exp Paradigm: NA
 Open field test
 P34-37
Object recognition memory1
Increased
Description: Mutants spent more time interacting with a novel object than a familiar object.
Exp Paradigm: NA
 Novel object recognition test
 P34-37
Spatial reference memory1
Decreased
Description: Mutants covered a greater distance before the first entry into the target zone. mutants show no change in the time spent in the target zone.
Exp Paradigm: NA
 Barnes maze test
 P34-37
Anxiety1
 No change
 Elevated plus maze test
 P34-37
Exploratory activity: habituation1
 No change
 Open field test
 P34-37
Cued or contextual fear conditioning: memory of context1
 No change
 Fear conditioning test
 P34-37
Spatial working memory1
 No change
 Barnes maze test
 P34-37
General locomotor activity: ambulatory activity1
 No change
 Barnes maze test
 P34-37
General locomotor activity: ambulatory activity1
 No change
 Open field test
 P34-37
Repetitive digging1
 No change
 Marble-burying test
 P34-37
Pain or nociception1
 No change
 Fear conditioning test
 P34-37
Sensorimotor gating1
 No change
 Prepulse inhibition
 P34-37
Social approach1
 No change
 Three-chamber social approach test
 P34-37
Social interaction1
 No change
 Reciprocal social interaction test
 P34-37
 Not Reported: Circadian sleep/wake cycle, Communications, Developmental profile, Immune response, Maternal behavior, Molecular profile, Neuroanatomy / ultrastructure / cytoarchitecture, Neurophysiology, Physiological parameters, Seizure





Download SCN1A's Cytoscape file

Interactor Symbol Interactor Name Interactor Organism Entrez ID Uniprot ID Interaction Type Evidence Reference
Snta1 syntrophin, acidic 1 20648 Q61234 IP/WB; Affinity chromatography; Peptide overlay assay; Surface plasmon resonance (SPR); Peptide affinity chromatography
Gee SH , et al. 1998
Gnao1 guanine nucleotide binding protein (G protein), alpha activating activity polypeptide O 50664 P59215 IP/WB
Anis Y , et al. 1999
Pum2 pumilio homolog 2 (Drosophila) 298874 Q80U58 IP/WB
Vessey JP , et al. 2010

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