共查询到20条相似文献,搜索用时 750 毫秒
1.
Objective: To undertake a full genome-wide screen for Parkinson's disease susceptibility loci. Methods: A genome-wide linkage study was undertaken in 227 affected sibling pairs from 199 pedigrees with Parkinson's disease. The pedigree sample consisted of 188 pedigrees from five European countries, and 11 from the USA. Individuals were genotyped for 391 microsatellite markers at ~10 cM intervals throughout the genome. Multipoint model-free affected sibling pair linkage analyses were carried out using the MLS (maximum LOD score) test. Results: There were six chromosomal regions with maximum MLS peaks of 1 or greater (pointwise p<0.018). Four of these chromosomal regions appear to be newly identified regions, and the highest MLS values were obtained on chromosomes 11q (MLS = 1.60, at 91 cM, D11S4175) and 7p (MLS = 1.51, at 5 cM, D7S531). The remaining two MLS peaks, on 2p11–q12 and 5q23, are consistent with excess sharing in regions reported by other studies. The highest MLS peak was observed on chromosome 2p11–q12 (MLS = 2.04, between markers D2S2216 and D2S160), within a relatively short distance (~17 cM) from the PARK3 region. Although a stronger support of linkage to this region was observed in the late age of onset subgroup of families, these differences were not significant. The peak on 5q23 (MLS = 1.05, at 130 cM, D5S471) coincides with the region identified by three other genome scans. All peak locations fell within a 10 cM distance. Conclusions: These stratified linkage analyses suggest linkage heterogeneity within the sample across the 2p11–q12 and 5q23 regions, with these two regions contributing independently to Parkinson's disease susceptibility. 相似文献
2.
The palmoplantar keratodermas (PPK) are a group of skin diseasescharacterized by thickening of the skin of the palms and solesdue to abnormal keratinization. We have performed linkage analysison families affected with three distinct forms of non-epidermolyticPPK (NEPPK): focal, diffuse and punctate. Genetic heterogeneitywas demonstrated, with focal NEPPK linked to the region on chromosome17 harbouring the type I keratin cluster, diffuse NEPPK linkedto the region on chromosome 12 containing the type II keratincluster, and in the punctate NEPPK pedigrees, linkage was excludedto both of these keratin clusters. This study provides evidencefor genetic differences between these forms of NEPPK and alsobetween NEPPK and epidermolytic PPK (EPPK) in which mutationsin keratin 9 have been demonstrated. 相似文献
3.
Background and methods: Autism is a severe neurodevelopmental disorder, which has a complex genetic predisposition. The ratio of males to females affected by autism is approximately 4:1, suggesting that sex specific factors are involved in its development. We reported previously the results of a genomewide screen for autism susceptibility loci in 83 affected sibling pairs (ASP), and follow up analysis in 152 ASP. Here, we report analysis of an expanded sample of 219 ASP, using sex and parent of origin linkage modelling at loci on chromosomes 2, 7, 9, 15, and 16. Results: The results suggest that linkage to chromosomes 7q and 16p is contributed largely by the male–male ASP (MLS = 2.55 v 0.12, and MLS = 2.48 v 0.00, for the 145 male–male and 74 male–female/female–female ASP on chromosomes 7 and 16 respectively). Conversely linkage to chromosome 15q appears to be attributable to the male–female/female–female ASP (MLS = 2.62 v 0.00, for non-male and male–male ASP respectively). On chromosomes 2 and 9, all ASP contribute to linkage. These data, supported by permutation, suggest a possible sex limited effect of susceptibility loci on chromosomes 7, 15, and 16. Parent of origin linkage modelling indicates two distinct regions of paternal and maternal identity by descent sharing on chromosome 7 (paternal MLS = 1.46 at ~112 cM, and maternal MLS = 1.83 at ~135 cM; corresponding maternal and paternal MLS = 0.53 and 0.28 respectively), and maternal specific sharing on chromosome 9 (maternal MLS = 1.99 at ~30 cM; paternal MLS = 0.02). Conclusion: These data support the possibility of two discrete loci underlying linkage of autism to chromosome 7, and implicate possible parent of origin specific effects in the aetiology of autism. 相似文献
4.
Cataracts are the commonest cause of blindness worldwide. Inherited cataract is a clinically and genetically heterogeneous disease that most often shows autosomal dominant inheritance. In this study, we report the identification of a novel locus for cerulean cataract type 5 (CCA5), also known as blue-dot cataract on chromosome 12q24. To date, four loci for autosomal dominant congenital cerulean cataract have been mapped on chromosomes, 17q24, 22q11.2–12.2, 2q33–35 and 16q23.1. To map this locus we performed genetic linkage analysis using microsatellite markers in a five-generation English family. After the exclusion of all known loci and several candidate genes we obtained significantly positive LOD score (Z) for marker D12S1611 ( Zmax=3.60; at θ=0). Haplotype data indicated that CCA5 locus lies within a region of 14.3 Mb interval between the markers D12S1718 and D12S1723. Our data are strongly suggestive of a new locus for CCA5 on chromosome 12. 相似文献
5.
Design: Observational and experimental study. Methods: We carried out a phenotypic study of a unique four generation family with nystagmus. We performed genetic linkage studies including a genome wide search. Results: Affected family members developed vestibulocerebellar type nystagmus in the first two years of life. A higher incidence of strabismus was noted in affected members. Haplotype construction and analysis of recombination events linked the disorder to a locus (NYS4) on chromosome 13q31-q33 with a lod score of 6.322 at θ=0 for D13S159 and narrowed the region to a 13.8 cM region between markers D13S1300 and D13S158. Conclusions: This study suggests that the early onset acquired nystagmus seen in this family is caused by a single gene defect. Identification of the gene may hold the key to understanding pathways for early eye stabilisation and strabismus. 相似文献
6.
Both genetic and environmental influences have been implicated in the pathogenesis of atopic disease. A recent report suggested that a major gene providing susceptibility to atopy was transmitted in a pattern consistent with autosomal dominant inheritance and evidence was presented that places the disease locus near the D11S97 marker on human chromosome 11q. In this report, we present three large, highly characterized pedigrees in which atopy is transmitted in a pattern consistent with autosomal dominant inheritance. Genotypes at the D11S97 and HLA loci were evaluated using both lod score and sib pair methods of analysis. In these pedigrees, we reject close moderate linkage (up to 10 cM) of atopy with both D11S97 and HLA. 相似文献
7.
Focal non-epidermolytic palmoplantar keratoderma (PPK or palmoplantar
ectodermal dysplasia type III) is associated with oesophageal cancer in
three families: two large pedigrees located in Liverpool, UK and in the
midwestern American states and one smaller family from Germany. In these
families, the PPK is inherited as autosomal dominant and has a late onset,
usually manifesting between 7 and 8 years of age. The disease is
characterised by thickening of the pressure areas of the soles, but is not
restricted to the feet and also presents with oral leukokeratosis and
follicular hyperkeratosis. The disease locus [previously termed the
"tylosis oesophageal cancer gene' (TOC) locus] has been mapped to
17q23-qter by linkage analysis. This region is located telomeric to the
keratin 16 gene, in which mutations have been identified in focal PPK
families who show no increased cancer risk. We describe the close mapping
of this locus to the interval between AFMb054zf9 and D17S1603 using
haplotype analysis of additional Genethon markers in the region and show
that although the American family is unlikely to be related to either of
the other two, the UK and German pedigrees may share a common descent. This
work provides a basis for positional cloning and candidate gene analysis in
order to identify a gene that may be involved in familial oesophageal
cancer.
相似文献
8.
Straub et al. [1994: Nat Genet 8:291-296] reported a candidate bipolar affective disorder (BAD) locus on chromosome 21q22.3. As a replication study, we analyzed 12 Australian BAD pedigrees for the presence of excess allele sharing and cosegregation with the putative chromosome 21q22.3 BAD locus, using six microsatellite markers. The nonparametric simulation-based statistic SimAPM produced positive results for the marker PFKL (P < 0.001) and D21S198 (P = 0.007). PFKL also demonstrated linkage (P < 0.001) when analyzed using the more conservative statistic, SimIBD. Comparable results were obtained when using the original APM statistic (P = 0.02 for D21S198). However, other nonparametric analyses such as GENEHUNTER and model-free linkage (MFLINK) analysis did not yield significant results. Combined LOD scores for the 12 families were strongly negative for all six markers under six genetic models. Two-point and multipoint analyses of individual families revealed one family, family 17, with maximal LOD scores greater than 1.41 for the 10.5-cM region between PFKL and D21S198. This report provides additional support for the suggestive linkage of a susceptibility locus for BAD on chromosome 21q22.3. 相似文献
9.
Autosomal dominant congenital cataract is a clinically and genetically
heterogeneous lens disease. Here we report the linkage of a locus for
autosomal dominant posterior polar cataract (CPP) to the distal short arm
of chromosome 1. To map the CPP locus we performed molecular genetic
linkage analysis using microsatellite markers in a three- generation
pedigree. After exclusion of 13 known loci and candidate lens genes for
autosomal dominant cataract, we obtained significantly positive LOD scores
for markers D1S508 (Z = 3.14, theta = 0) and D1S468 (Z = 2.71, theta = 0).
Multipoint analysis gave a maximum LOD score of 3.48 (theta = 0.07) between
markers D1S508 and D1S468. From haplotype data, however, CPP probably lies
in the telomeric interval D1S2845- 1pter, which includes the locus for the
clinically distinct Volkman congenital cataract (CCV). This study provides
the first evidence for genetic heterogeneity of autosomal dominant
posterior polar cataract for which a locus had been linked previously to
chromosome 16q.
相似文献
10.
Summary We did a linkage study of 2 multigenerational pedigrees with dominant olivopontocerebellar atrophy (OPCA) other than SCA1, with chromosome 12q microsatellites. Multipoint linkage analysis led to the conclusion that the disease locus locates within the 6.2 cM interval between IGF1 and D12S84/D12S105. This result coincides with that of Cuban ataxia pedigrees designated as SCA2. Our study provides genetic evidence that dominant OPCA in the Japanese consists of at least two genetically different disorders: SCA1 and SCA2. 相似文献
11.
Developmental dyslexia is characterised by difficulties in learning to read. As reading is a complex cognitive process, multiple genes are expected to contribute to the pathogenesis of dyslexia. The genetics of dyslexia has been a target of molecular studies during recent years, but so far no genes have been identified. However, a locus for dyslexia on chromosome 15q21 ( DYX1) has been established in previous linkage studies. We have identified two families with balanced translocations involving the 15q21-q22 region. In one family, the translocation segregates with specific dyslexia in three family members. In the other family, the translocation is associated with dyslexia in one family member. We have performed fluorescence in situ hybridisation (FISH) studies to refine the position of the putative dyslexia locus further. Our results indicate that both translocation breakpoints on 15q map within an interval of approximately 6-8 Mb between markers D15S143 and D15S1029, further supporting the presence of a locus for specific dyslexia on 15q21. Keywords: dyslexia; reading disability; chromosome 15; translocation 相似文献
12.
It has been suggested that a genetic factor(s) or a familial predisposition may contribute to the clinical manifestations of disc herniation; moreover, no genetic linkage between spinal disc herniation and spastic paraplegia has ever been described. A family with consanguineous parents and four of eight sibs affected by multiple disc herniations and spastic paraplegia was clinically and genetically analysed. Surgery caused partial improvement in all of them. After the exclusion of type II collagen and vitamin D receptor genes and the recessive loci for HSPs, a genome wide search was performed with about 500 fluorescent markers. Positive lod score values were obtained for chromosome 6q22.31-q24.1, with evidence of three homozygous intervals. The maximum multipoint lod score of 3.28 was obtained in only one interval, between markers D6S1699 and D6S314. On the whole, a susceptibility locus for disc herniation and autosomal recessive spastic paraplegia was found on chromosome 6q23.3-q24.1. This is the first time that disc herniation and the associated neurological syndrome has been linked to a human chromosomal region. 相似文献
13.
Spondylocarpotarsal synostosis syndrome is a rare autosomal recessive disorder characterised by vertebral fusions, frequently manifesting as an unsegmented vertebral bar, as well as fusions of the carpal and tarsal bones. In a study of three consanguineous families and one non-consanguineous family, linkage analysis was used to establish the chromosomal location of the disease gene. Linkage analysis localised the disease gene to chromosome 3p14. A maximum lod score of 6.49 (q = 0) was obtained for the marker at locus D3S3532 on chromosome 3p. Recombination mapping narrowed the linked region to the 5.7 cM genetic interval between the markers at loci D3S3724 and D3S1300. A common region of homozygosity was found between the markers at loci D3S3724 and D3S1300, defining a physical interval of approximately 4 million base pairs likely to contain the disease gene. Identification of the gene responsible for this disorder will provide insight into the genes that play a role in the formation of the vertebral column and joints. 相似文献
14.
Hereditary multiple exostoses (EXT) is an autosomal dominantdisorder of enchondral bone formation characterized by multiplebony outgrowths (exostoses), with progression to osteosarcomain a minority of cases. The exclusive involvement of skeletalabnormalities distinguishes EXT from the clinically more complexLanger – Giedion syndrome (LGS), which is associated withdeletions at chromosome 8q24. Previously, linkage analysis hasrevealed a locus for EXT in the LGS region on chromosome 8q24.However, locus heterogeneity was apparent with 30% of the familiesbeing unlinked to 8q24. We report on two large pedigrees segregatingEXT in which linkage to the LGS region was excluded. To localizethe EXT gene(s) in these families we performed a genome searchincluding 254 microsatellite markers dispersed over all autosomesand the X chromosome. In both families evidence was obtainedfor linkage to markers from the proximal short and long armsof chromosome 11. Two-point analysis gave the highest lod scorefor D11S554 (Z max = 7.148 at theta = 0.03). Multipoint analysisindicated a map position for the EXT gene between D11S905 andD11S916, with a peak multipoint lod score of 8. 10 at 6 cM fromD11S935. The assignment of a second locus for EXT to the pericentromericregion of chromosome 11 implicates an area that is particularlyrich in genes responsible for developmental abnormalities andneoplasia. 相似文献
15.
Background: Joubert syndrome (JS) is a recessively inherited disorder characterised by hypotonia at birth and developmental delay, followed by truncal ataxia and cognitive impairment, characteristic neuroimaging findings (cerebellar vermis hypoplasia, "molar tooth sign") and suggestive facial features. JS is clinically heterogeneous with some patients presenting with breathing abnormalities in the neonatal period, oculomotor apraxia, retinal dystrophy, retinal coloboma, ptosis, hexadactyly, and nephronophtisis or cystic dysplastic kidneys. JS is also genetically heterogeneous, with two known loci, on 9q34 (JBTS1) and 11p11-q12 (CORS2), representing only a fraction of cases. Methods: A large consanguineous Joubert family (five affected) was analysed for linkage with a marker set covering the entire genome and 16 smaller families were subsequently tested for candidate loci. Results: We report here the identification of a third locus in 6q23 (JBTS3) from the study of two consanguineous families. LOD score calculation, including the consanguinity loops, gave a maximum value of 4.1 and 2.3 at q = 0 for the two families, respectively. Conclusions: Linkage between the disease and the D6S1620–D6S1699 haplotype spanning a 13.1 cM interval is demonstrated. Genotype-phenotype studies indicate that, unlike CORS2, JBTS3 appears not to be associated with renal dysfunction. 相似文献
16.
The distal region of chromosome 5q contains a large number ofgenes, including those implicated in a variety of Mendeliandisorders. One of these, Treacher Collins syndrome (TCOF1),is an autosomal dominant disorder of craniofacial developmentthe features of which include conductive hearing loss and cleftpalate. Previous studies have localized the TCOF1 locus betweenD5S519 (proximal) and SPARC (distal). To more accurately definethe genetic distance between these markers, and to extend ahigh resolution genetic map of 5q31 – 33 to include additionalhighly informative markers, 15 loci (including polymorphismsfor 4 known genes) were mapped through the Centre d'Etude duPolymorphisme Humain reference pedigrees. The resulting geneticmap encompasses 29 cM on the sex-averaged map. To help integratethis linkage map with a physical map of the region, 13 locifrom 5q31 – 33, including 6 genes, were used to constructa radiation hybrid map. As eight of the loci are common to bothmaps this has allowed us to combine the maps. The most likelylocation for the TCOF1 locus within this marker framework isin the D5S519–SPARC interval; a region estimated to beapproximately 880 kb. 相似文献
17.
Freedman et al. [1997: Proc Natl Acad Sci USA 94:587-592] reported linkage in nine multiplex schizophrenia families to markers on chromosome 15, using impaired neuronal inhibition to repeated auditory stimuli (P50), a neurophysiological deficit associated with schizophrenia, as the phenotype. The highest LOD score obtained (5.3 at theta = 0) was for marker D15S1360 mapped to chromosome 15q13-14, less than 120 kb from the alpha7-nicotinic receptor (CHRNA7) gene. The study also reported a small positive LOD score for D15S1360 when examined for linkage to the schizophrenia phenotype. Following these findings, we examined three polymorphic markers (D15S1360, L76630, and ACTC) on chromosome 15q13-14 near the CHRNA7 gene for linkage to schizophrenia, using 54 pedigrees from an independent study. Alleles for these three markers were genotyped and analyzed using parametric and nonparametric methods. No LOD score above 1.00 was obtained for any marker, and affected sib-pair analysis likewise showed no evidence for linkage. We conclude that in our families the region around the CHRNA7 locus does not contain a major locus for susceptibility to schizophrenia. 相似文献
18.
Design and methods: A large consanguineous Pakistani family containing six subjects with autosomal recessive complete achromatopsia was ascertained. After excluding linkage to the two known achromatopsia genes ( CNGA3 and CNGB3), a genome wide linkage screen was undertaken. Results: Significant linkage was detected to a 12 cM autozygous segment between markers D1S485 and D1S2881 on chromosome 1p13. Direct sequence analysis of the candidate gene GNAT2 located within this interval identified a frameshift mutation in exon 7 (c842_843insTCAG; M280fsX291) that segregated with the disease. Conclusions: The GNAT2 gene codes for cone α-transducin, the G protein that couples the cone pigments to cGMP-phosphodiesterase in phototransduction. Although cone α-transducin has a fundamental role in cone phototransduction, mutations in GNAT2 have not been described previously. Since mutations in the CNGA3 gene may cause a variety of retinal dystrophies (complete and incomplete achromatopsia and progressive cone dystrophy), GNAT2 mutations may also prove to be implicated in other forms of retinal dystrophy with cone dysfunction. 相似文献
19.
We have investigated a family with an autosomal dominant form of spondyloepiphyseal dysplasia (SED) characterised by short stature and severe premature degenerative arthropathy. Previous studies have excluded linkage between this condition and the locus for the type II collagen gene. Here we report the identification of linkage between this disorder and a locus on the long arm of chromosome 15 between markers D15S979 and D15S1004. According to current linkage maps and sequence data, this locus includes that of the aggrecan gene ( AGC1). Our linkage data from the SED family show, however, that AGC1 maps to a locus that is proximal to D15S979. This proximal location for AGC1 is further supported by linkage data from a second family with an autosomal recessive form of multiple epiphyseal dysplasia that also maps to the SED locus. In both families AGC1 is therefore excluded as a candidate gene. 相似文献
20.
BACKGROUND—We have previously described an autosomal recessive syndrome of macrocephaly, multiple epiphyseal dysplasia (MED), and distinctive facies in a large, extended Omani family. The MED observed seems to be part of a larger malformation syndrome, since both craniofacial and central nervous system changes were present in the family. We performed a whole genome scan in this family in order to identify the gene locus for this malformation syndrome. METHODS AND RESULTS—Using homozygosity mapping, we show linkage to the telomeric region of the long arm of chromosome 15. The position of both the disease gene and the principal glycoprotein, chondroitin sulphate proteoglycan (aggrecan, AGC1) on chromosome 15q26, suggested that the aggrecan gene is a candidate for the disease in this family. However, three of the four affected children were heterozygous for a polymorphism at position 831 of the coding sequence of AGC1, providing strong evidence against its involvement. CONCLUSION—We have identified a gene locus for a recessive syndrome of macrocephaly, MED, and distinctive facies in a large Omani family. Aggrecan located on chromosome 15q26, within the critical region determined for this syndrome in this family, was excluded as a candidate gene. Keywords: macrocephaly; multiple epiphyseal dysplasia; distinctive facies; chromosome 15q26 相似文献
|
下载免费PDF全文