Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: UNIPROT:Q16637 (
SMA
)
8,107
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The childhood-onset spinal muscular atrophies are a clinically heterogeneous group of autosomal recessive disorders characterized by selective degeneration of the anterior horn cells with subsequent weakness and atrophy of limb muscles. The disease locus has been mapped to a region of chromosome 5q13 characterized by genetic instability and DNA duplication. Among the duplicated genes in this region, SMNT (telomeric copy;
survival motor neuron
) is thought to be the major disease determining gene since it is missing in the majority of
SMA
patients and since small, intragenic mutations in the gene have been associated with the disorder. Approximately half of the severely affected SMA I patients are also missing both homologues of a neighboring gene, the neuronal apoptosis inhibitory protein (NAIP). These data indicate that loss of NAIP may affect disease severity and further, that the molecular events underlying the childhood-onset SMAs are complex, possibly involving multiple genes. We report a third multicopy gene in the
SMA
region, encoding the p44 subunit of basal transcription factor II (
BTF2p44
). One copy of this transcription-repair gene is deleted in at least 15% of all
SMA
cases.
...
PMID:A multicopy transcription-repair gene, BTF2p44, maps to the SMA region and demonstrates SMA associated deletions. 906 43
Spinal muscular atrophy (SMA) is a motor neuron disease presenting with a wide spectrum of phenotypic variations. The primary cause of most, if not all, forms of childhood-onset spinal muscular atrophy appears to be the homozygous loss of the telomeric copy of the
survival motor neuron
(SMNT) gene. It is interesting that approximately half of all affected patients are likewise homozygous nulls for the neuronal apoptosis inhibitory protein (NAIP) gene and a somewhat lesser fraction for the basal transcription factor, p44 subunit (
BTF2p44
) gene. It has been proposed that homozygous loss of SMNT is the primary cause of spinal muscular atrophy while the loss of NAIP and perhaps other genes primarily affects the severity of disease manifestation. We explored this hypothesis by evaluating the extent of gene deletions in three multigenerational families with spinal muscular atrophy exhibiting dramatic intrafamilial phenotypic variation. Using somatic cell hybrid lines to sequester individual spinal muscular atrophy homologues, we show that homologues missing several contiguous genes correlate with "severe" disease alleles and homologues missing only SMNT correlate with "mild" disease alleles. These observations support the hypothesis that phenotypic severity among the childhood-onset spinal muscular atrophies is directly correlated with the extent of disease-specific deletions.
...
PMID:Extensive DNA deletion associated with severe disease alleles on spinal muscular atrophy homologues. 922 84
Spinal muscular atrophy (SMA) is a common and lethal autosomal recessive neurodegenerative disorder, which is caused by mutations of the
survival motor neuron
1 (SMN1) gene. Additionally, the phenotype is modified by several genes nearby SMN1 in the 5q13 region. In this study, we analyzed mutations in SMN1 and quantified the modifying genes, including SMN2, NAIP,
GTF2H2
, and H4F5 by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP), multiplex ligation-dependent probe amplification (MLPA), TA cloning, allele-specific long-range PCR, and Sanger sequencing in 157 SMA patients. Most SMA patients (94.90%) possessed a homozygous SMN1 deletion, while 10 patients demonstrated only the absence of exon 7, but the presence of exon 8. Two missense mutations (c.689 C>T and c.844 C>T) were identified in 2 patients who both carried a single copy of SMN1. We found inverse correlations between SMN2, the NAIP copy number, and the clinical severity of the disease. Furthermore, 7 severe type I patients possessed large-scale deletions, including SMN1, NAIP, and
GTF2H2
. We conclude that SMN1 gene conversion, SMN1 subtle mutations, SMN2 copy number, and the extent of deletion in the 5q13 region should all be considered in the genotype-phenotype analysis of SMA.
...
PMID:Molecular analysis of SMN1, SMN2, NAIP, GTF2H2, and H4F5 genes in 157 Chinese patients with spinal muscular atrophy. 2335 92
Spinal muscular atrophy (SMA) is an autosomal recessive, neurodegenerative disorder characterised commonly by proximal muscle weakness and wasting in the absence of sensory signs. Deletion or disruption of the
SMN1
gene causes the disease. The
SMN1
gene is located within an inverted duplication on chromosome 5q13 with the genes SMN2, NAIP and
GTF2H2
. MLPA analysis of 13 Cypriot SMA patients revealed that, 12 patients carried a homozygous
SMN1
gene deletion and one patient carried two copies of the
SMN1
gene. Two of 13 cases were a consequence of a paternally originating de novo mutation. Five genotypes were identified within the population, with the most frequent being a homozygous
SMN1
and NAIP genes deletion. In conclusion, genotype-phenotype correlation revealed that SMN2 is inversely related to disease severity and that NAIP and
GTF2H2
act as negative modifiers. This study provided, for the first time, a comprehensive overview of gene copy numbers and inheritance patterns within Cypriot SMA families.
...
PMID:Genetic findings of Cypriot spinal muscular atrophy patients. 2601 50
