A novel cDNA detects homozygous microdeletions in greater than 50% of type I spinal muscular atrophy patients

Thompson, Terri G.; DiDonato, Christine J.; Simard, Louise R.; Ingraham, Susan E.; Burghes, Arthur H.M.; Crawford, Thomas O.; Rochette, Camille; Mendell, Jerry R.; Wasmuth, John J.

doi:10.1038/ng0195-56

Cited by 79 publications

(57 citation statements)

References 30 publications

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“…This is the case with several human diseases such as Gaucher, 21-hydroxylase deficiency, CharcotMarie-Tooth type 1A, and defects with visual pigment genes (1)(2)(3)38). Such an assumption coincides well with finding that deletions in the SMA region occur at extremely high rates (7,14,17,19,20), reaching almost 100% for SMN, one of the SMA candidate genes (18).…”

Section: Discussionsupporting

confidence: 90%

“…polyadenylylated transcripts. We believe that these transcripts represent a class of unusually transcribed pseudogenes from the SMA region which are similar in their organization and expression to transcripts derived from two of the SMA candidate genes (19,20). In addition, the genomic organization of c41-cad and Br-cadherin sheds light on the origin of repetitive sequences in the SMA locus.…”

mentioning

confidence: 84%

“…The repetitive nature and unusual instability of this region hindered the task of narrowing down the critical region and identifying candidate genes (7,8,(14)(15)(16)(17). However, deletions of several regional polymorphic markers in SMA patients (7,9) led to the discovery of three candidate genes, all present in multiple copies and exhibiting homozygous deletions in SMA patients at very high rates (18)(19)(20).…”

mentioning

confidence: 99%

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Expressed cadherin pseudogenes are localized to the critical region of the spinal muscular atrophy gene.

Selig

Bruno

Scharf

et al. 1995

Proc. Natl. Acad. Sci. U.S.A.

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Low-copy repeats have been associated with genomic rearrangements and have been implicated in the generation of mutations in several diseases. Here we characterize a subset of low-copy repeats in the spinal muscular atrophy (SMA) region in human chromosome 5q13. We show that this repeated sequence, named c41-cad, is a highly expressed pseudogene derived from an intact neuronal cadherin gene, Br-cadherin, situated on Spl3-14. Br-cadherin is expressed specifically in the brain, whereas the c41-cad transcripts are 10-15 times more abundant and are present in all tissues examined. We speculate that the c41-cad repeats, separately or in concert with other repeats in the SMA region, are involved in the pathogenesis of SMA by promoting rearrangements and deletions.

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Section: Discussionsupporting

confidence: 90%

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confidence: 84%

mentioning

confidence: 99%

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Expressed cadherin pseudogenes are localized to the critical region of the spinal muscular atrophy gene.

Selig

Bruno

Scharf

et al. 1995

Proc. Natl. Acad. Sci. U.S.A.

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“…Positional cloning strategies and deletion analysis have led to the identification of three candidate genes for spinal muscular atrophy, survival motor neuron SMN (10), neuronal apoptosis inhibitory protein NAIP (11), and transcript XS2G3 (12) [corresponding to exon 7 of the NAIP gene in reverse orientation (13)]. All these candidate genes are positioned within a complex region that is duplicated on the long arm of chromosome 5 (14), resulting in two copies of the NAIP and the SMN gene in the human genome.…”

mentioning

confidence: 99%

Inactivation of the survival motor neuron gene, a candidate gene for human spinal muscular atrophy, leads to massive cell death in early mouse embryos

Schrank

Rudolf

Gunnersen

et al. 1997

Proc. Natl. Acad. Sci. U.S.A.

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417

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Proximal spinal muscular atrophy is an autosomal recessive human disease of spinal motor neurons leading to muscular weakness with onset predominantly in infancy and childhood. With an estimated heterozygote frequency of 1͞40 it is the most common monogenic disorder lethal to infants; milder forms represent the second most common pediatric neuromuscular disorder. Two candidate genes-survival motor neuron (SMN) and neuronal apoptosis inhibitory protein have been identified on chromosome 5q13 by positional cloning. However, the functional impact of these genes and the mechanism leading to a degeneration of motor neurons remain to be defined. To analyze the role of the SMN gene product in vivo we generated SMN-deficient mice. In contrast to the human genome, which contains two copies, the mouse genome contains only one SMN gene. Mice with homozygous SMN disruption display massive cell death during early embryonic development, indicating that the SMN gene product is necessary for cellular survival and function.

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“…A growing number of examples include Prader-Willi syndrome/Angelman syndrome (15q11-13), Williams-Beuren syndrome (7q11), spinal muscular atrophy (5q12-13), neurofibromatosis type 1 (NF1) (17q11), Smith-Magenis syndrome (17p11) and Sotos syndrome (5q35). [10][11][12][13][14][15][16] DS22 arises at a frequency of 1 in 3000 live births including a high incidence of de novo cases. Indeed, PCR detects frequent de novo deletions in sperm from healthy donors.…”

Section: Non-random Gcr: Mediation Of Deletion and Duplication Eventsmentioning

confidence: 99%

Recent advance in our understanding of the molecular nature of chromosomal abnormalities

et al. 2009

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The completion of the human genome project has enabled researchers to characterize the breakpoints for various chromosomal structural abnormalities including deletions, duplications or translocations. This in turn has shed new light on the molecular mechanisms underlying the onset of gross chromosomal rearrangements. On the other hand, advances in genetic manipulation technologies for various model organisms has increased our knowledge of meiotic chromosome segregation, errors which, contribute to chromosomal aneuploidy. This review focuses on the current understanding of germ line chromosomal abnormalities and provides an overview of the mechanisms involved. We refer to our own recent data and those of others to illustrate some of the new paradigms that have arisen in this field. We also discuss some perspectives on the sexual dimorphism of some of the pathways that leads to these chromosomal abnormalities.

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A novel cDNA detects homozygous microdeletions in greater than 50% of type I spinal muscular atrophy patients

Cited by 79 publications

References 30 publications

Expressed cadherin pseudogenes are localized to the critical region of the spinal muscular atrophy gene.

Expressed cadherin pseudogenes are localized to the critical region of the spinal muscular atrophy gene.

Inactivation of the survival motor neuron gene, a candidate gene for human spinal muscular atrophy, leads to massive cell death in early mouse embryos

Recent advance in our understanding of the molecular nature of chromosomal abnormalities

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