UNIPROT:Q16637 - FACTA Search

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Query: UNIPROT:Q16637 (SMA)
8,107 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Childhood-onset spinal muscular atrophy (SMA) is an autosomal recessive neuropathy characterized by selective degeneration of alpha-motor neuron cells of the spinal cord. Age of onset and motor development varies greatly among patients, but the molecular basis of this variability remains unclear. The SMA locus contains two copies of a 500-kb element and deletions within the telomeric element have been shown to be the most common cause of SMA. To study the relationship between genotype and phenotype, 60 SMA families, all but two of which are of French Canadian origin, were screened for deletions in the telomeric survival motor neuron (SMN(T)) and the intact neuronal apoptosis inhibitory protein (NAIP) genes. Combining these results with those obtained for the multicopy microsatellite marker Ag1-CA (D5S1556) indicated that there are at least two types of SMA alleles. Most type I SMA patients are homozygous for large scale deletions involving the entire SMN(T) gene as well as exons 5 and 6 of the NAIP gene. The strong association between the 100-bp allele of Ag1-CA and large scale deletions in populations of diverse ethnic origin suggests that this allele marks an unstable or founder SMA chromosome. In contrast, most chronic SMA patients have at least one SMA allele with either an intragenic SMN(T) deletion or a SMN(C):SMN(T) chimeric gene which replaces the normal SMN(T) gene. The broad continuum of disease presentation in chronic SMA is most likely a consequence of the interaction between different SMA alleles.
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PMID:SMN(T) and NAIP mutations in Canadian families with spinal muscular atrophy (SMA): genotype/phenotype correlations with disease severity. 929 75

The results of DNA analysis of deletion in exons 7 and 8 of SMN gene, and exon 5 of NAIP gene in 24 SMA-families from Ukraine are presented. Deletions of SMN exons 7 and 8, or 7 were found in 46 (97.9%) of 47 SMA-chromosomes. A homozygous deletion of NAIP exon 5 was demonstrated in 4 (19%) of 21 SMA-families. The authors have demonstrated that in 2 SMA patients with homozygous deletion SMN exon 7 only, the remaining SMN exon 8 was a part of a chimeric CBCD41/SMN gene.
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PMID:[A molecular genetic analysis of spinal muscular atrophy (SMA) in families at high risk from different regions of Ukraine]. 959 48

All three types of autosomal recessive spinal muscular atrophy map to chromosome region 5q13. Recent reports suggest that they are associated with deletions of two adjacent genes: SMN and NAIP. Here we report the first deletion analysis of Bulgarian SMA families. Homozygous deletion of exons 7 and 8 of the SMN gene were found in 85% of our patients, but the NAIP gene (exons 5 and 6) was deleted in only 26% of patients. To our knowledge, these frequencies are some of the lowest reported so far. The NAIP gene was deleted predominantly in severely affected patients (type I), while in the group with milder types SMA only deletions of the SMN gene were detected. Our phenotype-genotype correlation study confirmed that larger deletions are associated with more severe clinical course. The Bulgarian data support the thesis that the telomeric SMN gene could play a major role in determining SMA, while the NAIP or the centromeric SMN copy have a modifying effect on the phenotype.
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PMID:Deletion analysis of Bulgarian SMA families. 963 17

DNA-analysis of some mutation of SMN, dystrophin, FMR1 and PAH genes was performed among 149 high risk families of SMA, DMD, fragile X syndrome and PKU from different regions of Ukraine. The results of analysis of: deletions in the 7th and 8th exons of SMN gene; deletions in muscle-specific promoter region and 15 exons of dystrophin gene; R408W and IVS10nt546 mutations in PAH gene; GGG-expansions in FMR1 gene are presented.
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PMID:[The molecular genetic nature of the mutations responsible for the development in Ukraine of more widely spread forms of neuromuscular pathology and mental retardation with a monogenic nature of the heredity]. 969 45

We report a child with clinical findings consistent with Werdnig-Hoffmann disease (spinal muscular atrophy type I) who was found not to have the homozygous absence of the survival motor neurone (SMN(T)) gene observed in approximately 95% of spinal muscular atrophy patients. A quantitative PCR based dosage assay for SMN(T) copy number showed that this patient possessed a single copy of the SMN(T) gene. Heteroduplex and sequence analysis of the remaining copy of SMN(T) showed a 2 base pair deletion within exon 4 which produces a frameshift and premature termination of the deduced SMN(T) protein. This protocol of initial SMN(T) gene dosage analysis followed by mutation detection allows identification of SMA compound heterozygotes (patients lacking one copy of SMN(T) and having another mutation in their other copy), thereby increasing the sensitivity of SMA molecular diagnosis.
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PMID:Diagnosis of spinal muscular atrophy in an SMN non-deletion patient using a quantitative PCR screen and mutation analysis. 971 77

Spinal muscular atrophy (SMA) is a common recessive disorder characterized by the loss of lower motor neurons in the spinal cord. The disease has been classified into three types based on age of onset and severity. SMA I-III all map to chromosome 5q13 (refs 2,3), and nearly all patients display deletions or gene conversions of the survival motor neuron (SMN1) gene. Some correlation has been established between SMN protein levels and disease course; nevertheless, the genetic basis for SMA phenotypic variability remains unclear, and it has been postulated that the loss of an additional modifying factor contributes to the severity of type I SMA. Using comparative genomics to screen for such a factor among evolutionarily conserved sequences between mouse and human, we have identified a novel transcript, H4F5, which lies closer to SMN1 than any previously identified gene in the region. A multi-copy microsatellite marker that is deleted in more than 90% of type I SMA chromosomes is embedded in an intron of this gene, indicating that H4F5 is also highly deleted in type I SMA chromosomes, and thus is a candidate phenotypic modifier for SMA.
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PMID:Identification of a candidate modifying gene for spinal muscular atrophy by comparative genomics. 973 38

A Chinese male infant with arthrogryposis multiplex congenita (AMC), ventricular and atrial septal defects, and Werdnig-Hoffmann disease (WHD) had deletions of the telomeric copy of the survival motor neuron (SMN(T)) and neuronal apoptosis inhibitory protein genes. Children with AMC or congenital heart disease, or both, and motor neuron disease should undergo testing for SMN(T) deletion. This rare association further illustrates the variable phenotypic expressions of WHD.
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PMID:Large-scale deletions in a Chinese infant associated with a variant form of Werdnig-Hoffmann disease. 974 47

Spinal muscular atrophy (SMA) is an autosomal recessive disease characterized by a progressive degeneration of motoneurons in spinal cord and brainstem. The telomeric copy of a duplicated gene termed survival motor neuron (smn), which maps to chromosome 5q13, has been found to be deleted in most patients. The encoded gene product is a novel protein which recently has been shown to accumulate in specific nuclear organelles (gemini of coiled bodies, GEMS), and to play a part in the formation of the spliceosome complex. We have cloned and sequenced the rat smn cDNA. Antibodies generated against an N-terminus peptide recognized a main protein of 32 kDa in immunoblots of rat embryonic tissue extracts. Minor bands of 35 kDa, 45 kDa and, in perinatal muscle, of 24 kDa were also specifically detected, indicating that SMN is expressed as different molecular forms. Subcellular fractionation indicated that the 32 kDa form is mainly soluble, while the 35 kDa and 45 kDa products segregate to the microsomal-mitochondrial fraction. SMN protein is highly regulated during development: expression is high in embryonic tissues (central nervous system, muscle, lung and liver), and then progressively decreases to very low levels in most tissues of the adult. The demonstration of different molecular forms of SMN along with its developmental regulation may help to understand the contribution of this protein in the appearance of SMA phenotype.
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PMID:Survival motor neuron (SMN) protein in rat is expressed as different molecular forms and is developmentally regulated. 975 61

Childhood-onset autosomal recessive spinal muscular atrophy (SMA) is associated with absence of the telomeric survival motor neuron gene (SMNt) in most patients, and deletion of the neuronal apoptosis inhibitory protein (NAIP) gene in the majority of severely affected patients. Analysis of SMNt has been complicated by the existence of a centromeric copy, SMNc, which is almost identical to SMNt but which can be distinguished from it by restriction enzyme analysis. In this study 143 SMA patients have been genotyped for the presence or absence of the SMNt, SMNc and NAIP genes, and the data correlated with quantifiable clinical variables. Although a significant correlation was observed between the presence or absence of the NAIP gene and the severity of the clinical phenotype in SMA patients generally, there was no difference in age of onset or survival in type I patients with the NAIP+ or NAIP- genotype. Fluorimetric PCR analysis of SMNc gene dosage in 57 patients homozygous for the absence of the SMNt gene but in whom the NAIP gene was present showed a highly significant correlation between SMNc copy number and SMA subtype, and between SMNc copy number and both age of onset and length of survival. The data provide strong statistical support for the emerging consensus that the clinical phenotype in SMA is directed primarily by the level of functional SMN protein. The lower SMNc copy number in type I patients in whom the NAIP gene is present suggests that the SMNt gene is removed by deletion in the majority of such patients, rather than by gene conversion as is the case in SMA types II and III.
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PMID:Correlation of SMNt and SMNc gene copy number with age of onset and survival in spinal muscular atrophy. 980 71

Patients with autosomal recessive spinal muscular atrophy (SMA) usually carry a homozygous deletion of exons 7 and 8 of the telomeric survival motor neuron (SMN(T)) gene, although an isolated deletion of SMN(T) exon 8 has never been found. We now report on 2 patients with the typical features of SMA types II and III, who carried a homozygous deletion of SMN(T) exon 8 but retained SMN(T) exon 7. Importantly, to exclude a sequence conversion event of telomeric exon 8, we amplified a fragment that spanned exons 7 and 8 of the SMN gene. The resulting 1,010-base pair (bp) fragments were subjected to nested polymerase chain reaction (PCR) of exon 7. The subsequent restriction analysis failed to show any products of telomeric exon 7, as the site for primer 541C1120 was lost in both alleles. These findings indicate a homozygous deletion of SMN(T) exon 8. Direct sequencing of the cloned 1,010-bp fragment further confirmed that these 2 SMA patients did not possess telomeric exon 8. The more severely affected child also showed a deletion of the neuronal apoptosis inhibitory protein (NAIP) gene. The present findings provide evidence that an isolated deletion of SMN(T) exon 8 is associated with the milder subtypes of SMA. Our data also demonstrate that the additional deletion of the NAIP gene exacerbates the severity of the disease.
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PMID:Spinal muscular atrophy due to an isolated deletion of exon 8 of the telomeric survival motor neuron gene. 981 44

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