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Query: UMLS:C0011854 (
type 1 diabetes
)
20,749
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The role of human chromosome 2 in
type 1 diabetes
was evaluated by analysing linkage and linkage disequilibrium at 21 microsatellite marker loci, using 348 affected sibpair families and 107 simplex families. The microsatellite D2S152 was linked to, and associated with, disease in families from three different populations. Our evidence localizes a new diabetes susceptibility gene,
IDDM7
, to within two centiMorgans of D2S152. This places it in a region of chromosome 2q that shows conserved synteny with the region of mouse chromosome 1 containing the murine
type 1 diabetes
gene, Idd5. These results demonstrate the utility of polymorphic microsatellites for linkage disequilibrium mapping of genes for complex diseases.
...
PMID:Linkage disequilibrium mapping of a type 1 diabetes susceptibility gene (IDDM7) to chromosome 2q31-q33. 770 30
We have performed intrafamilial and case-control association studies to examine the previously reported linkage disequilibrium between D2S152 and a
type 1 diabetes
susceptibility gene on chromosome 2q31-q33 (
IDDM7
). Significant linkage disequilibrium was observed in our subset of 47 Florida affected sibpair families (p < 0.02) but not in the other 57 USA families. We were not able to detect any significant associations between
IDDM
and D2S152 using case-control studies in a Caucasian data set of 270 unrelated diabetic patients and 370 normal controls ascertained from Florida, or in a Chinese data set of 90 patients and 169 normal controls. Our results suggest that linkage disequilibrium between
IDDM7
and D2S152 must be very loose.
...
PMID:Intrafamilial and case-control association analysis of D2S152 in insulin-dependent diabetes. 867 4
We have developed software and statistical tools for linkage analysis of polygenic diseases. We use
type I diabetes mellitus
(insulin-dependent diabetes mellitus,
IDDM
) as our model system. Two susceptibility loci (
IDDM1
on 6p21 and IDDM2 on 11p15) are well established, and recent genome searches suggest the existence of other susceptibility loci. We have implemented CASPAR, a software tool that makes it possible to test for linkage quickly and efficiently using multiple polymorphic DNA markers simultaneously in nuclear families consisting of two unaffected parents and a pair of affected siblings (ASP). We use a simulation-based method to determine whether lod scores from a collection of ASP tests are significant. We test our new software and statistical tools to assess linkage of IDDM5 and
IDDM7
conditioned on analyses with 1 or 2 other unlinked type I diabetes susceptibility loci. The results from the CASPAR analysis suggest that conditioning of IDDM5 on
IDDM1
and IDDM4, and of
IDDM7
on
IDDM1
and IDDM2 provides significant benefits for the genetic analysis of polygenic loci.
...
PMID:Linkage analyses in type I diabetes mellitus using CASPAR, a software and statistical program for conditional analysis of polygenic diseases. 923 8
NeuroD/BETA2, a transcription factor of the insulin gene, also plays an important role in the development of pancreatic beta-cells. Recently, the NeuroD/BETA2 gene has been mapped to the long arm of human chromosome 2 (2q32) where the
IDDM7
gene has previously been mapped, implying its involvement in diabetes. To identify mutations in the NeuroD/BETA2 gene that may predispose patients to develop diabetes, we studied the gene in 50 Japanese subjects with diabetes (4 with type 1 and 46 with type 2) by the polymerase chain reaction (PCR) followed by single-strand conformation polymorphism and sequencing analyses. Further analysis was performed in 392 Japanese subjects (60 with type 1 and 158 with type 2 diabetes and 174 healthy control subjects) by mismatch PCR restriction fragment length polymorphism. We found a DNA polymorphism of the NeuroD/BETA2 gene. A nucleotide G-to-A transition results in the substitution of alanine to threonine at codon 45 (Ala45Thr). The frequencies of heterozygotes for the Ala45Thr variant were 9.8% in the control subjects, 9.5% in the patients with type 2 diabetes, and 25.0% in the patients with
type 1 diabetes
, a significant difference (P = 0.006). Because the variant of the NeuroD/BETA2 gene (Ala45Thr) is associated with type 1 but not type 2 diabetes, it may be implicated in the loss of pancreatic beta-cells in
type 1 diabetes
.
...
PMID:Association of polymorphism in the NeuroD/BETA2 gene with type 1 diabetes in the Japanese. 1033 23
Mutations in the NeuroD/BETA2 gene have been shown to associate with type 2 diabetes. In the present study, we examined mutations in the NeuroD/BETA2 gene for association with either type 1 or 2 diabetes. Three variants were identified in patients with type 2 diabetes: Ala45Thr (allelic frequency 0.36, 95% CI 0.31-0.41), Pro197His (0.01), and Ser259Ser (0.01). Ala45Thr and Pro197His were not associated with type 2 diabetes, but the transmission disequilibrium test showed unequal transmission of the A45 allele to offspring with
type 1 diabetes
(chi2 = 5.90, P < 0.02, odds ratio 1.55, 95% CI 0.91-2.63). This association could not be explained by linkage disequilibrium between the Ala45 allele and
IDDM7
(D2S152), which is also located on chromosome 2q32. When tested in vitro, the biological activity of Thr45 (117+/-36% vs. Ala45) and His197 (90+/-28% vs. Pro197) on the regulation of the human insulin gene promoter appeared normal. In conclusion, mutations in the NeuroD/BETA2 gene are not a common cause of late-onset type 2 diabetes among Danes. However, in the type 1 diabetic Danish population, the Ala45Thr variant of NeuroD/BETA2 may represent a susceptibility marker independent of
IDDM7
on chromosome 2q32.
...
PMID:NeuroD/BETA2 gene variability and diabetes: no associations to late-onset type 2 diabetes but an A45 allele may represent a susceptibility marker for type 1 diabetes among Danes. Danish Study Group of Diabetes in Childhood, and the Danish IDDM Epidemiology and Genetics Group. 1090
Type 1 diabetes (T1D) is a genetically complex disorder of glucose homeostasis that results from the autoimmune destruction of the insulin-secreting cells of the pancreas. Two previous whole-genome scans for linkage to T1D in 187 and 356 families containing affected sib pairs (ASPs) yielded apparently conflicting results, despite partial overlap in the families analyzed. However, each of these studies individually lacked power to detect loci with locus-specific disease prevalence/sib-risk ratios (lambda(s)) <1.4. In the present study, a third genome scan was performed using a new collection of 225 multiplex families with T1D, and the data from all three of these genome scans were merged and analyzed jointly. The combined sample of 831 ASPs, all with both parents genotyped, provided 90% power to detect linkage for loci with lambda(s) = 1.3 at P=7.4x10(-4). Three chromosome regions were identified that showed significant evidence of linkage (P<2.2x10(-5); LOD scores >4), 6p21 (
IDDM1
), 11p15 (IDDM2), 16q22-q24, and four more that showed suggestive evidence (P<7.4x10(-4), LOD scores > or =2.2), 10p11 (IDDM10), 2q31 (
IDDM7
, IDDM12, and IDDM13), 6q21 (IDDM15), and 1q42. Exploratory analyses, taking into account the presence of specific high-risk HLA genotypes or affected sibs' ages at disease onset, provided evidence of linkage at several additional sites, including the putative IDDM8 locus on chromosome 6q27. Our results indicate that much of the difficulty in mapping T1D susceptibility genes results from inadequate sample sizes, and the results point to the value of future international collaborations to assemble and analyze much larger data sets for linkage in complex diseases.
...
PMID:Seven regions of the genome show evidence of linkage to type 1 diabetes in a consensus analysis of 767 multiplex families. 1150 94
It has recently been shown that mutations in BETA2/NeuroD1 are responsible for the development of type 2 diabetes mellitus (T2DM) in Caucasians. This gene is located near the
IDDM7
region and one of its amino acid polymorphisms, Ala45Thr, has been associated with
type 1 diabetes
(T1DM) in Japanese and Danish populations. The aim of our study is to examine Ala45Thr for its role in T1DM in Caucasians. We used both population-based case-control analysis and family-based transmission/disequilibrium testing (TDT). Genotyping was carried out by the dot-blotting method using P32. Study subjects comprised 202
type 1 diabetes
cases (mean age at diagnosis: 11.1 years, mean age at examination: 36.4 years) and 139 controls with normal fasting glucose. For the TDT study, allelic transmission was evaluated in 209 case family trios. The frequency of the Ala45 allele was 70.3 % in cases and 62.9 % in controls (p=0.04), and 47.5 % of cases were Ala45 homozygotes compared to 36.0 % of controls (p=0.03). The TDT component of the study did not achieve statistical significance. However, given the high frequency of this variant even among controls, exceptionally large data sets are needed to provide adequate power for this approach. Our case-control study suggests that the Ala45 variant of BETA2/NeuroD1 may be associated with T1DM in Caucasians (or in linkage disequilibrium with a causative variant). However, this finding should be confirmed by a much larger family-based study.
...
PMID:The Ala45Thr polymorphism of BETA2/NeuroD1 gene and susceptibility to type 1 diabetes mellitus in caucasians. 1295 29
