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3. Presymptomatic and prenatal diagnosis in myotonic dystrophy by genetic linkage studies

Author

Speer, M.C., Pericak-Vance, M.A., Yamaoka, L., Hung, W.-Y., Ashley, A., Stajich, J.M., and Roses, A.D.

Subjects
Myotonic dystrophy -- Diagnosis, Myotonic dystrophy -- Genetic aspects, Prenatal diagnosis -- Methods, Chromosome mapping -- Methods, Health, Psychology and mental health
Abstract

Myotonic dystrophy is one of the most common muscular dystrophies, and the prevalence of the condition is about 1 case per 10,000 population. Myotonic dystrophy is highly variable in its expression, and many carriers of the autosomal (not sex-linked) dominant gene may be asymptomatic. In contrast with many other genetic disorders, a new mutation of myotonic dystrophy has never been identified. It is important to identify even the carriers of myotonic dystrophy who are asymptomatic, as these individuals are at high risk for a number of heart disorders as they grow older. Female carriers of the gene are at very high risk for bearing infants with congenital myotonic dystrophy and also for complications of pregnancy, including polyhydramnios, premature delivery, and labor difficulties. The earliest attempts to locate the gene for myotonic dystrophy on a chromosome established a linkage between the disease gene and a blood group marker on chromosome 19. Unfortunately, variations in the blood group marker were sufficiently uncommon, so that most people in a family have the same gene at this spot and thus the transmission of the disease gene within the family can not be followed. This situation has changed, however, with the development of the techniques of molecular biology. The use of DNA markers has demonstrated that the myotonic dystrophy gene is tightly linked to the muscle type creatine kinase gene on the long arm of chromosome 19 at 19q13.2. Using four affected families as subjects, researchers have shown that restriction fragment length polymorphisms (RFLPs) may be used to identify carrier individuals within a family. RFLPs are pieces of DNA of different lengths that reflect genetic differences among people. An RFLP from the creatine kinase gene may be used to follow an affected chromosome 19 from generation to generation. While the clinical diagnosis of this highly variable disorder is often difficult and sometimes impossible, the use of DNA analysis identifies the gene carriers with confidence and may have an important impact on the lives of these individuals. (Consumer Summary produced by Reliance Medical Information, Inc.)

Published
1990

7. Complete Genomic Screen in Idiopathic Parkinson Disease

Author

Scott, W.K., Stajich, J.M., Scott, B.L., Nance, M.A., Watts, R.L., Hubble, J.P., Haines, J.L., Koller, W.C., Pahwa, R., Stern, M.B., Hiner, B.C., Jankovic, J., Allen, F.H., Goetz, C.G., Small, G.W., Mastaglia, F., Middleton, L.T., Roses, A.D., Vance, J.M., and Pericak-Vance, M.A.

Subjects
Human genetics -- Research, Genomes -- Research, Parkinson's disease -- Genetic aspects, Biological sciences
Published
2001

8. Molecular analysis of myotilin, the gene responsible for LGMD1A

Author

Hauser, M.A., Salmikangas, P., Torian, U.M., Dancel, R., Anderson, L.V.B., Taivainen, U., Stajich, J.M., Gaskell, P.C., Vance, J.M., Pericak-Vance, M.A., Carpen, O., and Speer, M.C.

Subjects
Genetic research -- Analysis, Human genetics -- Research, Genetic disorders -- Research, Biological sciences
Published
2000

9. Parkin mutations and idiopathic Parkinson disease (PD)

Author

Scott, W.K., Rogala, A.R., Rampersaud, E., Stajich, J.M., Nance, M.A., Watts, R.L., Hubble, J.P., Scott, B.L., Haines, J.L., Koller, W.C., Stern, M.B., Hiner, B.C., Jankovic, J., Allen, F.H., Goetz, C.G., Small, G.W., Laing, N.G., Pericak-Vance, M.A., and Vance, J.M.

Subjects
Genetic research -- Analysis, Human genetics -- Research, Parkinson's disease -- Genetic aspects, Biological sciences
Published
2000

10. Clinical studies in non-chromosome 4-linked facioscapulohumeral muscular dystrophy

Author

Tim, R.W., Gilbert, J.R., Stajich, J.M., Rampersaud, E., Viles, K.D., Tawil, R., Padberg, G.W.A.M., Frants, R.R., Maarel, S.M. van der, Bossen, E.H., Friedman, A.H., Perical-Vance, M.A., and Speer, M.C.

Subjects
Neuromuscular and neurometabolic disorders, Neuromusculaire en neurometabole aandoeningen
Abstract

Item does not contain fulltext

Published
2001

12. Parkin mutations and susceptibility alleles in late-onset Parkinson's disease

Author

Oliveira, S.A., Scott, W.K., Martin, E.R., Nance, M.A., Watts, R.L., Hubble, J.P., Koller, W.C., Pahwa, R., Stern, M.B., Hiner, B.C., Ondo, W.G., Allen, F.H., Scott, B.L., Goetz, C.G., Small, G.W., Mastaglia, F., Stajich, J.M., Zhang, F., Booze, M.W., Winn, M.P., Middleton, L.T., Haines, J.L., Pericak-Vance, M.A., Vance, J.M., Oliveira, S.A., Scott, W.K., Martin, E.R., Nance, M.A., Watts, R.L., Hubble, J.P., Koller, W.C., Pahwa, R., Stern, M.B., Hiner, B.C., Ondo, W.G., Allen, F.H., Scott, B.L., Goetz, C.G., Small, G.W., Mastaglia, F., Stajich, J.M., Zhang, F., Booze, M.W., Winn, M.P., Middleton, L.T., Haines, J.L., Pericak-Vance, M.A., and Vance, J.M.

Abstract

Parkin, an E2-dependent ubiquitin protein ligase, carries pathogenic mutations in patients with autosomal recessive juvenile parkinsonism, but its role in the late-onset form of Parkinson's disease (PD) is not firmly established. Previously, we detected linkage of idiopathic PD to the region on chromosome 6 containing the Parkin gene (D6S305, logarithm of odds score, 5.47) in families with at least one subject with age at onset (AAO) younger than 40 years. Mutation analysis of the Parkin gene in the 174 multiplex families from the genomic screen and 133 additional PD families identified mutations in 18% of early-onset and 2% of late-onset families (5% of total families screened). The AAO of patients with Parkin mutations ranged from 12 to 71 years. Excluding exon 7 mutations, the mean AAO of patients with Parkin mutations was 31.5 years. However, mutations in exon 7, the first RING finger (Cys253Trp, Arg256Cys, Arg275Trp, and Asp280Asn) were observed primarily in heterozygous PD patients with a much later AAO (mean AAO, 49.2 years) but were not found in controls in this study or several previous reports (920 chromosomes). These findings suggest that mutations in Parkin contribute to the common form of PD and that heterozygous mutations, especially those lying in exon 7, act as susceptibility alleles for late-onset form of Parkinson disease.

Published
2003

13. Genetic polymorphisms of the N-acetyltransferase genes and risk of Parkinson's disease

Author

van der Walt, J.M., Martin, E.R., Scott, W.K., Zhang, F., Nance, M.A., Watts, R.L., Hubble, J.P., Haines, J.L., Koller, W.C., Lyons, K., Pahwa, R., Stern, M.B., Colcher, A., Hiner, B.C., Jankovic, J., Ondo, W.G., Allen, F.H., Goetz, C.G., Small, G.W., Mastaglia, F., Roses, A.D., Stajich, J.M., Booze, M.W., Fujiwara, K., Gibson, R.A., Middleton, L.T., Scott, B.L., Pericak-Vance, M.A., Vance, J.M., van der Walt, J.M., Martin, E.R., Scott, W.K., Zhang, F., Nance, M.A., Watts, R.L., Hubble, J.P., Haines, J.L., Koller, W.C., Lyons, K., Pahwa, R., Stern, M.B., Colcher, A., Hiner, B.C., Jankovic, J., Ondo, W.G., Allen, F.H., Goetz, C.G., Small, G.W., Mastaglia, F., Roses, A.D., Stajich, J.M., Booze, M.W., Fujiwara, K., Gibson, R.A., Middleton, L.T., Scott, B.L., Pericak-Vance, M.A., and Vance, J.M.

Abstract

Recently, the authors demonstrated linkage in idiopathic PD to a region on chromosome 8p that contains the N-acetyltransferase genes, NAT1 and NAT2. The authors examined NAT1 and NAT2 for association with PD using family-based association methods and single nucleotide polymorphisms (SNPs). The authors did not find evidence for association with increased risk for PD between any individual NAT1 or NAT2 SNP or acetylation haplotype (N = 397 families, 1,580 individuals).

Published
2003

14. Mitochondrial polymorphisms significantly reduce the risk of Parkinson disease

Author

van der Walt, J.M., Nicodemus, K.K., Martin, E.R., Scott, W.K., Nance, M.A., Watts, R.L., Hubble, J.P., Haines, J.L., Koller, W.C., Lyons, K., Pahwa, R., Stern, M.B., Colcher, A., Hiner, B.C., Jankovic, J., Ondo, W.G., Allen Jr., F.H., Goetz, C.G., Small, G.W., Mastaglia, F., Stajich, J.M., McLaurin, A.C., Middleton, L.T., Scott, B.L., Schmechel, D.E., Pericak-Vance, M.A., Vance, J.M., van der Walt, J.M., Nicodemus, K.K., Martin, E.R., Scott, W.K., Nance, M.A., Watts, R.L., Hubble, J.P., Haines, J.L., Koller, W.C., Lyons, K., Pahwa, R., Stern, M.B., Colcher, A., Hiner, B.C., Jankovic, J., Ondo, W.G., Allen Jr., F.H., Goetz, C.G., Small, G.W., Mastaglia, F., Stajich, J.M., McLaurin, A.C., Middleton, L.T., Scott, B.L., Schmechel, D.E., Pericak-Vance, M.A., and Vance, J.M.

Abstract

Mitochondrial (mt) impairment, particularly within complex I of the electron transport system, has been implicated in the pathogenesis of Parkinson disease (PD). More than half of mitochondrially encoded polypeptides form part of the reduced nicotinamide adenine dinucleotide dehydrogenase (NADH) complex I enzyme. To test the hypothesis that mtDNA variation contributes to PD expression, we genotyped 10 single-nucleotide polymorphisms (SNPs) that define the European mtDNA haplogroups in 609 white patients with PD and 340 unaffected white control subjects. Overall, individuals classified as haplogroup J (odds ratio [OR] 0.55; 95% confidence interval [CI] 0.34–0.91; P=.02) or K (OR 0.52; 95% CI 0.30–0.90; P=.02) demonstrated a significant decrease in risk of PD versus individuals carrying the most common haplogroup, H. Furthermore, a specific SNP that defines these two haplogroups, 10398G, is strongly associated with this protective effect (OR 0.53; 95% CI 0.39–0.73; P=.0001). SNP 10398G causes a nonconservative amino acid change from threonine to alanine within the NADH dehydrogenase 3 (ND3) of complex I. After stratification by sex, this decrease in risk appeared stronger in women than in men (OR 0.43; 95% CI 0.27–0.71; P=.0009). In addition, SNP 9055A of ATP6 demonstrated a protective effect for women (OR 0.45; 95% CI 0.22–0.93; P=.03). Our results suggest that ND3 is an important factor in PD susceptibility among white individuals and could help explain the role of complex I in PD expression.

Published
2003

15. Association study of parkin gene polymorphisms with idiopathic Parkinson disease

Author

Oliveira, S.A., Scott, W.K., Nance, M.A., Watts, R.L., Hubble, J.P., Koller, W.C., Lyons, K.E., Pahwa, R., Stern, M.B., Hiner, B.C., Jankovic, J., Ondo, W.G., Allen, Jr, F.H., Scott, B.L., Goetz, C.G., Small, G.W., Mastaglia, F.L., Stajich, J.M., Zhang, F., Booze, M.W., Reaves, J.A., Middleton, L.T., Haines, J.L., Pericak-Vance, M.A., Vance, J.M., Martin, E.R., Oliveira, S.A., Scott, W.K., Nance, M.A., Watts, R.L., Hubble, J.P., Koller, W.C., Lyons, K.E., Pahwa, R., Stern, M.B., Hiner, B.C., Jankovic, J., Ondo, W.G., Allen, Jr, F.H., Scott, B.L., Goetz, C.G., Small, G.W., Mastaglia, F.L., Stajich, J.M., Zhang, F., Booze, M.W., Reaves, J.A., Middleton, L.T., Haines, J.L., Pericak-Vance, M.A., Vance, J.M., and Martin, E.R.

Abstract

Background Previously, we detected linkage of idiopathic Parkinson disease (PD) to the region on chromosome 6 that contains the Parkin gene (D6S305; logarithm of odds score, 5.47) in families with at least one individual with age at onset younger than 40 years (families with early-onset disease). Further study demonstrated the presence of Parkin mutations in this data set. However, previous case-control studies have reported conflicting results regarding the role of more common Parkin polymorphisms as susceptibility alleles for idiopathic PD. Objective To investigate the association of 7 previously studied Parkin single-nucleotide polymorphisms (SNPs) throughout the promoter and most of the open reading frame with PD in a large cohort of patients with primarily late-onset PD. Methods One promoter, 3 intronic, and 3 exonic Parkin SNPs were genotyped in 1580 individuals belonging to 397 families, and their association with PD was evaluated using family-based association tests. Results No significant association (P>.05) between PD and any Parkin SNP allele or genotype was detected. Haplotype analysis and stratification by age at onset or family history also failed to produce significant results. Conclusions These results suggest that these common variants of Parkin are not associated with PD in white patients, although Parkin mutations are known to cause early- and late-onset PD.

Published
2003

16. Age at onset in two common neurodegenerative diseases is genetically controlled

Author

Li, Y-J, Scott, W.K., Hedges, D.J., Zhang, F., Gaskell, P.C., Nance, M.A., Watts, R.L., Hubble, J.P., Koller, W.C., Pahwa, R., Stern, M.B., Hiner, B.C., Jankovic, J., Allen, F.H., Goetz, C.G., Mastaglia, F., Stajich, J.M., Gibson, R.A., Middleton, L.T., Saunders, A.M., Scott, B.L., Small, G.W., Nicodemus, K.K., Reed, A.D., Schmechel, D.E., Welsh-Bohmer, K.A., Conneally, P.M., Roses, A.D., Gilbert, J.R., Vance, J.M., Haines, J.L., Pericak-Vance, M.A., Li, Y-J, Scott, W.K., Hedges, D.J., Zhang, F., Gaskell, P.C., Nance, M.A., Watts, R.L., Hubble, J.P., Koller, W.C., Pahwa, R., Stern, M.B., Hiner, B.C., Jankovic, J., Allen, F.H., Goetz, C.G., Mastaglia, F., Stajich, J.M., Gibson, R.A., Middleton, L.T., Saunders, A.M., Scott, B.L., Small, G.W., Nicodemus, K.K., Reed, A.D., Schmechel, D.E., Welsh-Bohmer, K.A., Conneally, P.M., Roses, A.D., Gilbert, J.R., Vance, J.M., Haines, J.L., and Pericak-Vance, M.A.

Abstract

To identify genes influencing age at onset (AAO) in two common neurodegenerative diseases, a genomic screen was performed for AAO in families with Alzheimer disease (AD; n=449) and Parkinson disease (PD; n=174). Heritabilities between 40%–60% were found in both the AD and PD data sets. For PD, significant evidence for linkage to AAO was found on chromosome 1p (LOD = 3.41). For AD, the AAO effect of APOE (LOD = 3.28) was confirmed. In addition, evidence for AAO linkage on chromosomes 6 and 10 was identified independently in both the AD and PD data sets. Subsequent unified analyses of these regions identified a single peak on chromosome 10q between D10S1239 and D10S1237, with a maximum LOD score of 2.62. These data suggest that a common gene affects AAO in these two common complex neurodegenerative diseases.

Published
2002

17. Association of single-nucleotide polymorphisms of the tau gene with late-onset Parkinson disease

Author

Martin, E.R., Scott, W.K., Nance, M.A., Watts, R.L., Hubble, J.P., Koller, W.C., Lyons, K., Pahwa, R., Stern, M.B., Colcher, A., Hiner, B.C., Jankovic, J., Ondo, W.G., Allen, F.H., Goetz, C.G., Small, G.W., Masterman, D., Mastaglia, F., Laing, N.G., Stajich, J.M., Ribble, R.C., Booze, M.W., Rogala, A., Hauser, M.A., Zhang, F., Gibson, R.A., Middleton, L.T., Roses, A.D., Haines, J.L., Scott, B.L., Pericak-Vance, M.A., Vance, J.M., Martin, E.R., Scott, W.K., Nance, M.A., Watts, R.L., Hubble, J.P., Koller, W.C., Lyons, K., Pahwa, R., Stern, M.B., Colcher, A., Hiner, B.C., Jankovic, J., Ondo, W.G., Allen, F.H., Goetz, C.G., Small, G.W., Masterman, D., Mastaglia, F., Laing, N.G., Stajich, J.M., Ribble, R.C., Booze, M.W., Rogala, A., Hauser, M.A., Zhang, F., Gibson, R.A., Middleton, L.T., Roses, A.D., Haines, J.L., Scott, B.L., Pericak-Vance, M.A., and Vance, J.M.

Abstract

CONTEXT The human tau gene, which promotes assembly of neuronal microtubules, has been associated with several rare neurologic diseases that clinically include parkinsonian features. We recently observed linkage in idiopathic Parkinson disease (PD) to a region on chromosome 17q21 that contains the tau gene. These factors make tau a good candidate for investigation as a susceptibility gene for idiopathic PD, the most common form of the disease. OBJECTIVE To investigate whether the tau gene is involved in idiopathic PD. DESIGN, SETTING, AND PARTICIPANTS Among a sample of 1056 individuals from 235 families selected from 13 clinical centers in the United States and Australia and from a family ascertainment core center, we tested 5 single-nucleotide polymorphisms (SNPs) within the tau gene for association with PD, using family-based tests of association. Both affected (n = 426) and unaffected (n = 579) family members were included; 51 individuals had unclear PD status. Analyses were conducted to test individual SNPs and SNP haplotypes within the tau gene. MAIN OUTCOME MEASURE Family-based tests of association, calculated using asymptotic distributions. RESULTS Analysis of association between the SNPs and PD yielded significant evidence of association for 3 of the 5 SNPs tested: SNP 3, P =.03; SNP 9i, P =.04; and SNP 11, P =.04. The 2 other SNPs did not show evidence of significant association (SNP 9ii, P =.11, and SNP 9iii, P =.87). Strong evidence of association was found with haplotype analysis, with a positive association with one haplotype (P =.009) and a negative association with another haplotype (P =.007). Substantial linkage disequilibrium (P<.001) was detected between 4 of the 5 SNPs (SNPs 3, 9i, 9ii, and 11). CONCLUSIONS This integrated approach of genetic linkage and positional association analyses implicates tau as a susceptibility gene for idiopathic PD.

Published
2001

18. Complete genomic screen in Parkinson Disease

Author

Scott, W.K., Nance, M.A., Watts, R.L., Hubble, J.P., Koller, W.C., Lyons, K., Pahwa, R., Stern, M.B., Colcher, A., Hiner, B.C., Jankovic, J., Ondo, W.G., Allen, Jr, F.H., Goetz, C.G., Small, G.W., Masterman, D., Mastaglia, F., Laing, N.G., Stajich, J.M., Slotterbeck, B., Booze, M.W., Ribble, R.C., Rampersaud, E., West, S.G., Gibson, R.A., Middleton, L.T., Roses, A.D., Haines, J.L., Scott, B.L., Vance, J.M., Pericak-Vance, M.A., Scott, W.K., Nance, M.A., Watts, R.L., Hubble, J.P., Koller, W.C., Lyons, K., Pahwa, R., Stern, M.B., Colcher, A., Hiner, B.C., Jankovic, J., Ondo, W.G., Allen, Jr, F.H., Goetz, C.G., Small, G.W., Masterman, D., Mastaglia, F., Laing, N.G., Stajich, J.M., Slotterbeck, B., Booze, M.W., Ribble, R.C., Rampersaud, E., West, S.G., Gibson, R.A., Middleton, L.T., Roses, A.D., Haines, J.L., Scott, B.L., Vance, J.M., and Pericak-Vance, M.A.

Abstract

Context The relative contribution of genes vs environment in idiopathic Parkinson disease (PD) is controversial. Although genetic studies have identified 2 genes in which mutations cause rare single-gene variants of PD and observational studies have suggested a genetic component, twin studies have suggested that little genetic contribution exists in the common forms of PD. Objective To identify genetic risk factors for idiopathic PD. Design, Setting, and Participants Genetic linkage study conducted 1995-2000 in which a complete genomic screen (n = 344 markers) was performed in 174 families with multiple individuals diagnosed as having idiopathic PD, identified through probands in 13 clinic populations in the continental United States and Australia. A total of 870 family members were studied: 378 diagnosed as having PD, 379 unaffected by PD, and 113 with unclear status. Main Outcome Measures Logarithm of odds (lod) scores generated from parametric and nonparametric genetic linkage analysis. Results Two-point parametric maximum parametric lod score (MLOD) and multipoint nonparametric lod score (LOD) linkage analysis detected significant evidence for linkage to 5 distinct chromosomal regions: chromosome 6 in the parkin gene (MLOD = 5.07; LOD = 5.47) in families with at least 1 individual with PD onset at younger than 40 years, chromosomes 17q (MLOD = 2.28; LOD = 2.62), 8p (MLOD = 2.01; LOD = 2.22), and 5q (MLOD = 2.39; LOD = 1.50) overall and in families with late-onset PD, and chromosome 9q (MLOD = 1.52; LOD = 2.59) in families with both levodopa-responsive and levodopa-nonresponsive patients. Conclusions Our data suggest that the parkin gene is important in early-onset PD and that multiple genetic factors may be important in the development of idiopathic late-onset PD. Parkinson disease (PD) is a neurodegenerative disease that affects more than a half-million people in the United States.1 The economic, social, and emotional burden of PD will increase as the populatio

Published
2001

19. The α-synuclein gene is not a major risk factor in familial Parkinson disease

Author

Scott, W.K., Yamaoka, L.H., Stajich, J.M., Scott, B.L., Vance, J.M., Roses, A.D., Pericak-Vance, M.A., Watts, R.L., Nance, M., Hubble, J., Koller, W., Stern, M.B., Colcher, A., Allen Jr., F.H., Hiner, B.C., Jankovic, J., Ondo, W., Laing, N.G., Mastaglia, F., Goetz, C., Pappert, E., Small, G.W., Masterman, D., Haines, J.L., Davies, T.L., Scott, W.K., Yamaoka, L.H., Stajich, J.M., Scott, B.L., Vance, J.M., Roses, A.D., Pericak-Vance, M.A., Watts, R.L., Nance, M., Hubble, J., Koller, W., Stern, M.B., Colcher, A., Allen Jr., F.H., Hiner, B.C., Jankovic, J., Ondo, W., Laing, N.G., Mastaglia, F., Goetz, C., Pappert, E., Small, G.W., Masterman, D., Haines, J.L., and Davies, T.L.

Abstract

Letter to the Editor

Published
1999

20. Exome sequencing detection of two untranslated GFPT1 mutations in a family with limb-girdle myasthenia.

Author

Maselli, R.A., Arredondo, J., Nguyen, J., Lara, M., Ng, F., Ngo, M., Pham, J.M., Yi, Q., Stajich, J.M., McDonald, K., Hauser, M.A., and Wollmann, R.L.

Subjects
CHOLINESTERASE inhibitors, BIOPSY, NUCLEOTIDES, AXONS, GENETIC mutation
Abstract

The term 'limb-girdle myasthenia' ( LGM) was first used to describe three siblings with proximal limb weakness without oculobulbar involvement, but with EMG decrement and responsiveness to anticholinesterase medication. We report here that exome sequencing in the proband of this family revealed several sequence variations in genes linked to proximal limb weakness. However, the only mutations that cosegregated with disease were an intronic IVS7-8A>G mutation and the previously reported 3′- UTR c.* 22C>A mutation in GFPT1, a gene linked to LGM. A minigene assay showed that IVS7-8A>G activates an alternative splice acceptor that results in retention of the last seven nucleotides of intron 7 and a frameshift leading to a termination codon 13 nucleotides downstream from the new splice site. An anconeus muscle biopsy revealed mild reduction of the axon terminal size and postsynaptic fold simplification. The amplitudes of miniature endplate potentials and quantal release were also diminished. The DNA of the mildly affected father of the proband showed only the intronic mutation along with sequence variations in other genes potentially relevant to LGM. Thus, this study performed in the family originally described with LGM showed two GFPT1 untranslated mutations, which may cause disease by reducing GFPT1 expression and ultimately impairing protein glycosylation. [ABSTRACT FROM AUTHOR]

Published
2014
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22. Evidence for anticipation in autosomal dominant limb-girdle muscular dystrophy

Author

Bartoloni, L., Speer, M.C., Stajich, J.M., Gaskell, P.C., Yamaoka, L.H., Scott, W.K., Pericak-vance, M.A., Gilchrist, J.M., Westbrook, C.A., and Horrigan, S.K.

Abstract

Anticipation, an increase in severity or decrease in age of onset (AO) inherent in the transmission of the disease gene from affected parent to affected child, has been increasingly described in human disease. To assess anticipation in a large kindred in which autosomal dominant limb-girdle muscular dystrophy (LGMD1A) is segregating, age of disease onset was collected from patient interviews of affected family members. A total of 25 parent-offspring pairs, in which the parents are three (3R), four (4R), or five (5R) generations removed from a common founding ancestor, were available for analysis. Life table analyses showed significant decreases in age at first reported symptoms in the offspring of the 3R (χ2=5.55, p=0.02) and 4R (χ2=7.81, p=0.005) parents. Pairwise analyses confirmed this decrease with a median decrease of 13 years in transmission to offspring from 3R parents and 18 years in transmission to offspring from 4R parents. The finding of anticipation in this pedigree suggests that the mutation in LGMD1A may be the result of the expansion of an unstable trinucleotide repeat.

Published
1998

23. Coexistence of macular corneal dystrophy types I and II in a single sibship

Author

Liu, N-P., Klintworth, G.K., Baldwin, J., Lennon, F., Stajich, J.M., Pericak-vance, M.A., vance, J.M., and Thonar, E.J-M.A.

Abstract

Background Macular corneal dystrophy (MCD) is an inherited autosomal recessive disorder that has been subdivided into two primary immunophenotypes, MCD types I and II. The MCD type I gene has been localised previously to chromosome 16q22 and suggestive evidence provided that MCD type II gene is also linked to this region. Here an unusual family is reported where both MCD types I and II are found in a single sibship. Methods Immunoreactivity to an anti-keratan sulphate monoclonal antibody (5-D-4) was evaluated in patients' serum and in corneal tissue obtained at keratoplasty. Chromosomal haplotypes were constructed using microsatellite repeat markers spanning the region of the MCD type I locus. Results Immunological studies demonstrated that two of the affected siblings have MCD type II while one has MCD type I. Haplotype analysis suggests that all three affected sibs inherited one identical parental haplotype. However, the two MCD types differ in their alternative chromosome with both MCD type II children sharing an identical haplotype, different from their MCD type I sibling. Conclusion The findings in this study support the hypothesis that the genes for MCD types I and II co-localise to the same region of chromosome 16 and are likely to be due to allelic manifestations of the same abnormal gene.

Published
1998

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