We have performed a two-stage study to analyse the association of polymorphism on chromosome 2q33 with multiple sclerosis (MS). In all, 17 markers were analysed in stage-1 in 134 Finnish MS families and the observed associations were tested in stage-2 in 186 MS families. We did not find previously reported allelic or haplotype associations with CTLA4. We obtained a weak signal of two distinct predisposing genes, one proximal the other distal of CTLA4. The putative proximal gene was associated with the marker rs3977 in families lacking HLA-DR2 (P=0.02 and 0.02) and the other distal gene was associated with D2S1271 in families from a high-risk region in western Finland (P=0.02 and 0.01). Based on the >3 cM distance and the lack of linkage disequilibrium between these loci, we conclude that the two association signals are independent. Our results provide preliminary evidence for two distinct MS susceptibility genes on 2q33 outside of CTLA4. 相似文献
Prenatal diagnosis was performed in 81 cases at risk for the fragile X syndrome. There were 12 fra(X)-positive cases, two of which showed low expression in cultured amniotic fluid cells. FUdR and high thymidine were used for induction of fra(X) (q27.3) expression in all cases. In 21 cases linkage studies were performed, 7 with probes for the loci DXS52, DXS98 and DXS105, 13 with probes for DXS369 and DXS296, DXS304 or DXS374 and one with the probe Do33 for DXS465. In 11 of these cases linkage analysis gave risk figures higher than 95% or lower than 5%, all in concordance with the cytogenetic findings. Discordance was found in three cases studied earlier, the two cases with low expression mentioned above and one cytogenetically normal case, which were now restudied with the new probes. RFLP-studies and linkage analysis was also performed for 24 cytogenetically fra(X)-negative females having a 50%, 25% or 12.5% risk of being carriers according to pedigree data. In 15 cases the risk dropped to 1% or less. Six of these women were pregnant and had asked for prenatal diagnosis but after genetic counseling prenatal diagnosis was avoided. 相似文献
There is a prevailing hypothesis that an acute change in the fraction of oxygen in inspired air (FIO2) has no effect on maximal cardiac output (
), although maximal oxygen uptake (
) and exercise performance do vary along with FIO2. We tested this hypothesis in six endurance athletes during progressive cycle ergometer exercise in conditions of hypoxia
(FIO2=0.150), normoxia (FIO2=0.209) and hyperoxia (FIO2=0.320). As expected,
decreased in hypoxia [mean (SD) 3.58 (0.45) l·min–1, P<0.05] and increased in hyperoxia [5.17 (0.34) l·min–1, P<0.05] in comparison with normoxia [4.55 (0.32) l·min–1]. Similarly, maximal power (
) decreased in hypoxia [334 (41) W, P<0.05] and tended to increase in hyperoxia [404 (58) W] in comparison with normoxia [383 (46) W]. Contrary to the hypothesis,
was 25.99 (3.37) l·min–1 in hypoxia (P<0.05 compared to normoxia and hyperoxia), 28.51 (2.36) l·min–1 in normoxia and 30.13 (2.06) l·min–1 in hyperoxia. Our results can be interpreted to indicate that (1) the reduction in
in acute hypoxia is explained both by the narrowing of the arterio-venous oxygen difference and reduced
, (2) reduced
in acute hypoxia may be beneficial by preventing a further decrease in pulmonary and peripheral oxygen diffusion, and (3)
reduced
and
in acute hypoxia may be the result rather than the cause of the reduced
and skeletal muscle recruitment, thus supporting the existence of a central governor.
Electronic Publication 相似文献
Rh incompatibility disease (ie Rh hemolytic disease of the fetus and newborn) has been implicated as a risk factor for schizophrenia. Here, we extend the maternal-fetal genotype incompatibility (MFG) test used in an earlier case-parent trio study that found significant evidence for an increased risk of schizophrenia in RHD MFG-incompatible children. We modify the MFG test for case-parent trios to include any number of siblings. This modified test enables us to use more of the available data from the earlier study. The increased sample size not only gives us greater power to test for MFG incompatibility but it also enables us to model the impact of previous RHD MFG-incompatible pregnancies on the relative risk of RHD MFG incompatibility in later-born siblings. This modeling is important, because RHD MFG incompatibility is a proxy for Rh incompatibility disease, and the risk of Rh incompatibility disease increases with the number of previous RHD MFG-incompatible pregnancies. The best-fitting models are consistent with the hypothesized effect that previous incompatible pregnancies increase the risk of schizophrenia due to RHD MFG incompatibility. There was significant evidence that the relative risk of schizophrenia in the second- and later-born RHD MFG-incompatible children is 1.7, consistent with earlier estimates. Our extension of the MFG test has general application to family-based studies of maternal-genotype and MFG interaction effects. 相似文献
Design: Setting up CSGE analysis for the FBN1 gene and testing the method first by screening coded samples from 17 MFS patients with previously detected FBN1 mutations. We then used a test set consisting of 46 coded samples representing MFS, related phenotypes, and controls.
Results: Sixteen of the 17 known mutations were detected. Altogether 23 mutations were detected in a test set consisting of 46 coded samples representing MFS, related phenotypes, and controls. Nineteen of the mutations were novel. The mutation was detected in 18 of the 20 MFS patients and in one patient with familial EL, but not in a patient with sporadic MASS syndrome, any of the five sporadic annuloaortic ectasia (AAE) patients, or any of the 15 controls. A FBN1 mutation was detected in four members of a multigeneration family with AAE, however.
Conclusions: These results indicate that CSGE is highly sensitive for the detection of mutations in FBN1, and that molecular diagnostics is a useful means of confirming clinical diagnoses of MFS and related disorders. Further careful investigations are needed, however, in order to correlate the interfamilial and intrafamilial clinical variabilities of fibrillinopathies and mutations in FBN1.
Linkage disequilibrium (LD) has been an efficient tool for fine mapping of monogenic disease genes in population isolates. Its usefulness for identification of predisposing loci for common, polygenic diseases has been challenged on the basis of anticipated allelic and locus heterogeneity. We compared the extent of LD among marker loci in Finnish subpopulations with divergent but well-characterized histories. One study sample represents the early settlement Finnish population, descended from two immigration events 4,000 and 2,000 years ago. The second sample represents the geographically large late settlement region, populated 15 generations ago by several small immigrant groups from the early settlement region. The third is a restricted regional subpopulation in northeastern Finland which was founded 12 generations ago by 39 immigrant families from the late settlement region. We genotyped 243 microsatellite markers and 68 single nucleotide polymorphisms (SNPs) on chromosomes 1q and 5q. The genealogy of the families from the early (n=16) and late settlements (n=54) and the isolated settlement (n=54) was studied in detail back to the 1800s. Microsatellite data revealed greater LD in the young, founder subpopulation than was seen in either of the older populations. Observed linkage disequilibrium correlated not only with physical distance between markers but also with the information content of the markers. Using biallelic SNP markers, significant LD could only be detected up to 0.1 cM. Our results demonstrate the complexity of the concept of 'detectable LD' and emphasize the importance of understanding population history when designing a strategy for disease gene mapping. 相似文献