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NM_000344.4(SMN1):c.388T>C (p.Tyr130His) AND Kugelberg-Welander disease

Germline classification:
Pathogenic (1 submission)
Last evaluated:
Feb 21, 2012
Review status:
(0/4) 0 stars out of maximum of 4 stars
no assertion criteria provided
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:
RCV000032709.3

Allele description [Variation Report for NM_000344.4(SMN1):c.388T>C (p.Tyr130His)]

NM_000344.4(SMN1):c.388T>C (p.Tyr130His)

Gene:
SMN1:survival of motor neuron 1, telomeric [Gene - OMIM - HGNC]
Variant type:
single nucleotide variant
Cytogenetic location:
5q13.2
Genomic location:
Preferred name:
NM_000344.4(SMN1):c.388T>C (p.Tyr130His)
HGVS:
  • NC_000005.10:g.70942472T>C
  • NG_008691.1:g.22532T>C
  • NM_000344.4:c.388T>CMANE SELECT
  • NM_001297715.1:c.388T>C
  • NM_022874.2:c.388T>C
  • NP_000335.1:p.Tyr130His
  • NP_001284644.1:p.Tyr130His
  • NP_075012.1:p.Tyr130His
  • LRG_676:g.22532T>C
  • NC_000005.9:g.70238299T>C
Protein change:
Y130H; TYR130HIS
Links:
OMIM: 600354.0020; dbSNP: rs397514518
NCBI 1000 Genomes Browser:
rs397514518
Molecular consequence:
  • NM_000344.4:c.388T>C - missense variant - [Sequence Ontology: SO:0001583]
  • NM_001297715.1:c.388T>C - missense variant - [Sequence Ontology: SO:0001583]
  • NM_022874.2:c.388T>C - missense variant - [Sequence Ontology: SO:0001583]

Condition(s)

Name:
Kugelberg-Welander disease (SMA3)
Synonyms:
SPINAL MUSCULAR ATROPHY, TYPE III; SMA III; Muscular atrophy, juvenile; See all synonyms [MedGen]
Identifiers:
MONDO: MONDO:0009672; MedGen: C0152109; Orphanet: 70; Orphanet: 83419; OMIM: 253400

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Assertion and evidence details

Submission AccessionSubmitterReview Status
(Assertion method)
Clinical Significance
(Last evaluated)
OriginMethodCitations
SCV000056472OMIM
no assertion criteria provided
Pathogenic
(Feb 21, 2012)
germlineliterature only

PubMed (1)
[See all records that cite this PMID]

Summary from all submissions

EthnicityOriginAffectedIndividualsFamiliesChromosomes testedNumber TestedFamily historyMethod
not providedgermlinenot providednot providednot providednot providednot providednot providedliterature only

Citations

PubMed

Genotype-phenotype relationship in 2 SMA III patients with novel mutations in the Tudor domain.

Fraidakis MJ, Drunat S, Maisonobe T, Gerard B, Pradat PF, Meininger V, Salachas F.

Neurology. 2012 Feb 21;78(8):551-6. doi: 10.1212/WNL.0b013e318247ca69. Epub 2012 Feb 8.

PubMed [citation]
PMID:
22323744

Details of each submission

From OMIM, SCV000056472.2

#EthnicityIndividualsChromosomes TestedFamily HistoryMethodCitations
1not providednot providednot providednot providedliterature only PubMed (1)

Description

In a 50-year-old French man with SMA type III (253400), Fraidakis et al. (2012) identified compound heterozygosity for a deletion of SMN1 (600354.0021) and a 388T-C transition in exon 3 of the SMN1 gene, resulting in a tyr130-to-his (Y130H) substitution at a highly conserved residue in the Tudor domain. The patient had 2 copies of SMN2 (601627). He had onset of slowly progressive proximal lower limb weakness in late adolescence, followed by upper limb involvement and cramps. He was wheelchair-bound at age 48. Physical examination showed severe motor deficit and amyotrophy in the pelvic and shoulder girdles, as well as severe motor deficit and amyotrophy in the distal limb muscles. EMG was consistent with severe chronic denervation at all extremities. Fraidakis et al. (2012) commented on the relatively mild disease course in this patient and suggested that there were likely compensatory factors affecting expression of the SMN genes.

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

Last Updated: Mar 26, 2023