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NM_004975.4(KCNB1):c.629C>T (p.Thr210Met) AND Inborn genetic diseases

Germline classification:
Pathogenic (1 submission)
Last evaluated:
Jul 11, 2023
Review status:
1 star out of maximum of 4 stars
criteria provided, single submitter
Somatic classification
of clinical impact:
None
Review status:
(0/4) 0 stars out of maximum of 4 stars
no assertion criteria provided
Somatic classification
of oncogenicity:
None
Review status:
(0/4) 0 stars out of maximum of 4 stars
no assertion criteria provided
Record status:
current
Accession:
RCV003352974.2

Allele description [Variation Report for NM_004975.4(KCNB1):c.629C>T (p.Thr210Met)]

NM_004975.4(KCNB1):c.629C>T (p.Thr210Met)

Gene:
KCNB1:potassium voltage-gated channel subfamily B member 1 [Gene - OMIM - HGNC]
Variant type:
single nucleotide variant
Cytogenetic location:
20q13.13
Genomic location:
Preferred name:
NM_004975.4(KCNB1):c.629C>T (p.Thr210Met)
HGVS:
  • NC_000020.11:g.49374931G>A
  • NG_041781.2:g.112714C>T
  • NM_004975.4:c.629C>TMANE SELECT
  • NP_004966.1:p.Thr210Met
  • NC_000020.10:g.47991468G>A
  • NM_004975.2:c.629C>T
  • NM_004975.3:c.629C>T
  • p.Thr210Met
Protein change:
T210M
Links:
dbSNP: rs1555889162
NCBI 1000 Genomes Browser:
rs1555889162
Molecular consequence:
  • NM_004975.4:c.629C>T - missense variant - [Sequence Ontology: SO:0001583]
Functional consequence:
Severe decrease in peak current [Functional Epilepsy Nomenclature for Ion Channels: FENICS-0087]

Condition(s)

Name:
Inborn genetic diseases
Identifiers:
MeSH: D030342; MedGen: C0950123

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Assertion and evidence details

Submission AccessionSubmitterReview Status
(Assertion method)
Clinical Significance
(Last evaluated)
OriginMethodCitations
SCV004076645Ambry Genetics
criteria provided, single submitter

(Ambry Variant Classification Scheme 2023)
Pathogenic
(Jul 11, 2023)
germlineclinical testing

PubMed (6)
[See all records that cite these PMIDs]

Citation Link

Summary from all submissions

EthnicityOriginAffectedIndividualsFamiliesChromosomes testedNumber TestedFamily historyMethod
not providedgermlineunknownnot providednot providednot providednot providednot providedclinical testing

Citations

PubMed

Neurodevelopmental Disorders Caused by De Novo Variants in KCNB1 Genotypes and Phenotypes.

de Kovel CGF, Syrbe S, Brilstra EH, Verbeek N, Kerr B, Dubbs H, Bayat A, Desai S, Naidu S, Srivastava S, Cagaylan H, Yis U, Saunders C, Rook M, Plugge S, Muhle H, Afawi Z, Klein KM, Jayaraman V, Rajagopalan R, Goldberg E, Marsh E, et al.

JAMA Neurol. 2017 Oct 1;74(10):1228-1236. doi: 10.1001/jamaneurol.2017.1714.

PubMed [citation]
PMID:
28806457
PMCID:
PMC5710242

Clinical features and outcome of 6 new patients carrying de novo KCNB1 gene mutations.

Marini C, Romoli M, Parrini E, Costa C, Mei D, Mari F, Parmeggiani L, Procopio E, Metitieri T, Cellini E, Virdò S, De Vita D, Gentile M, Prontera P, Calabresi P, Guerrini R.

Neurol Genet. 2017 Dec;3(6):e206. doi: 10.1212/NXG.0000000000000206.

PubMed [citation]
PMID:
29264397
PMCID:
PMC5733250
See all PubMed Citations (6)

Details of each submission

From Ambry Genetics, SCV004076645.2

#EthnicityIndividualsChromosomes TestedFamily HistoryMethodCitations
1not providednot providednot providednot providedclinical testing PubMed (6)

Description

The c.629C>T (p.T210M) alteration is located in exon 2 (coding exon 2) of the KCNB1 gene. This alteration results from a C to T substitution at nucleotide position 629, causing the threonine (T) at amino acid position 210 to be replaced by a methionine (M). This variant was not reported in population-based cohorts in the Genome Aggregation Database (gnomAD). This variant was reported de novo in multiple individuals with features consistent with KCNB1-related developmental and epileptic encephalopathy (de Kovel, 2017; Marini, 2017; Bar 2020; Liu, 2021). Two other reportedly de novo alterations at the same codon, c.629C>G (p.Thr210Arg) and c.629C>A (p.Thr210Lys), have been detected in individuals with developmental delay, language delays, and epilepsy/seizures (Bar, 2020; de Kovel, 2017). This amino acid position is highly conserved in available vertebrate species. This missense alteration is located in a region that has a low rate of benign missense variation (Lek, 2016; Firth, 2009). Functional studies suggest this variant results in a loss of K+ conductance and cell-surface KV2.1 expression, and that the substitution of a methionine would be incompatible with channel function of the S-1 pore interface; however, additional evidence is needed to confirm this finding (Kang, 2019). This alteration is predicted to be deleterious by in silico analysis. Based on the available evidence, this alteration is classified as pathogenic.

#SampleMethodObservation
OriginAffectedNumber testedTissuePurposeMethodIndividualsAllele frequencyFamiliesCo-occurrences
1germlineunknownnot providednot providednot providednot providednot providednot providednot provided

Last Updated: Sep 29, 2024