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Query: UMLS:C0025362 (
mental retardation
)
15,878
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
One of the commonest forms of X-linked
mental retardation
is associated with a fragile site at Xq27 on the human X chromosome which can be visualised structurally after culturing cells in folate-deficient media. Unusually, the mutation can be transmitted through a phenotypically normal male. There is already some evidence that the gene loci for G6PD and
factor IX
are linked to this
mental retardation
locus. We have followed the inheritance of a DNA sequence 52A, in fragile site families that are also informative for
factor IX
. We demonstrate that these probes are localised at Xq27/Xq28-Xqter, close physically to the fragile site. We did not find close linkage between 52A,
factor IX
, and the fragile site in the families studied despite 52A and
factor IX
showing linkage in normal families. We discuss the importance of these data for the genetic mapping of this region of the human X chromosome and the implication for the use of these DNA probes for clinical diagnosis.
...
PMID:Linkage studies of X-linked mental retardation: high frequency of recombination in the telomeric region of the human X chromosome (fragile site/linkage/recombination/X chromosome). 299 Nov 15
X-linked
mental retardation
with fragile X or Martin-Bell Syndrome (MBS) is a frequent cause of
mental retardation
. So far segregation analysis of MBS in pedigrees ascertained by different, incomplete criteria has produced results, difficult to interpret, which suggest genetic complexity (Sherman et al. 1985). Biochemical and cell biological studies have failed to provide an assay for genetic heterogeneity in MBS and linkage analysis is the only available method. Such analysis, however, is complicated by the incomplete penetrance of the disease in males and the variable penetrance and expression of the defect in heterozygous females. We have used a new approach to test the heterogeneity of recombination between MBS and the coagulation factor IX gene or the anonymous probe 52A in a group of nine families who have sought genetic counselling at Guy's Hospital. We find that both our families alone and our families plus apparently complete samples of pedigrees reported in the literature, separate into two groups: one tightly and one loosely linked to
factor IX
. In the combined family sample these represent respectively 0.3 and 0.7 of the total and show recombination fractions of 0.0-0.15 and 0.25-0.5. Furthermore, the families with non-penetrant carrier males show tighter linkage to
factor IX
than the others, thus confirming the suggestion of a systematic difference among MBS families in the recombination between the disease and the
factor IX
locus. By contrast, no significant differences were found in the recombination between 52A and
factor IX
in the two groups of MBS families or in these families versus those with Hunter syndrome examined in our laboratory. The causes of the linkage heterogeneity we describe are not known. At least two alternatives can be considered: The existence of two MBS loci or differences in the recombination between a single MBS locus and the
factor IX
gene. The association between incomplete penetrance and tight linkage to
factor IX
as well as the discontinuous variation in recombination fraction we have observed seem to favour the former alternative.
...
PMID:Genetic heterogeneity of X-linked mental retardation with fragile X. Association of tight linkage to factor IX and incomplete penetrance in males. 367 51
Linkage analysis on a family with fragile X-linked
mental retardation
was performed using a Taq 1 restriction fragment length polymorphism detected by a cloned human coagulation factor IX cDNA. Two affected brothers in this sibship were found to have different
factor IX
RFLP alleles, indicating a recombinational event occurred between the two genes. Our data therefore indicate that the gene responsible for fragile X-linked
mental retardation
is not as tightly linked to the
factor IX
gene as the previously published data may suggest.
...
PMID:Linkage and recombination between fragile X-linked mental retardation and the factor IX gene. 396 89
The human gene for glucose-6-phosphate dehydrogenase (G6PD) has been subregionally mapped to band Xq28 by segregation analysis in rodent-human somatic cell hybrids [Pai, G. S., Sprinkel, J. A., Do, T. T., Mareni, C. E. & Migeon, B. R. (1980) Proc. Natl. Acad. Sci. USA 77, 2810-2813]. We have previously reported a common type of X-linked
mental retardation
associated with an inducible fragile site at Xq27-Xq28 segregates in a close linkage relationship with a G6PD variant, but the relative position of G6PD with respect to the fragile site has not yet been established. This fragile-X syndrome has been shown to be closely linked also to a Taq I restriction fragment length polymorphism detected by a cDNA probe for
factor IX
, and the latter locus has been mapped to the subtelomeric region Xq26-Xq28 [Camerino, G., Mattei, M. G., Mattei, G. F., Jaye, B. & Mandel, J. L. (1983) Nature (London) 306, 701-704]. The in situ hybridization studies reported here provide strong evidence that G6PD is located on the Xq telomeric fragment distal to the fragile site. These observations and the well-established knowledge that the genes for Deutan and Protan colorblindness are closely linked to G6PD, but segregate independently of factor IX deficiency, suggest that the fragile site associated with this type of X-linked
mental retardation
occurs in a region prone to high frequency of meiotic recombination.
...
PMID:Cytological mapping of the human glucose-6-phosphate dehydrogenase gene distal to the fragile-X site suggests a high rate of meiotic recombination across this site. 659 64
The fragile X-mental retardation syndrome is defined by a moderate to severe mental retardation associated with a cytogenetic marker, a fragile site localized on the long arm of the X chromosome at band Xq 27. This syndrome has recently been recognized as one of the major causes of genetically determined
mental retardation
, and as one of the most important X-linked diseases with respect to its frequency (analogous to that of Duchenne muscular dystrophy or of haemophilia A) and severity. In the absence of treatment, genetic screening for this disease would seem particularly important. Prenatal diagnosis is now feasible although difficult and detection of heterozygous carriers is only possible in approximately 50% of cases. The recent demonstration of genetic linkage between the glucose 6-phosphate dehydrogenase (G6PD)-colour blindness cluster (at Xq28) and the fragile X locus has suggested that the fragile site is indeed the site of the mutation. We show here that the fragile X and haemophilia B loci are closely linked, using as genetic marker a polymorphism of the coagulation factor IX gene. Our study of a large family has demonstrated transmission through a phenotypically normal male, a feature previously described in retrospective analysis of a few other fragile X pedigrees. Restriction polymorphisms associated with the
factor IX
gene should be useful for analysing this peculiar aspect of the genetics of the fragile X syndrome, and for genetic screening of the disease.
...
PMID:Close linkage of fragile X-mental retardation syndrome to haemophilia B and transmission through a normal male. 668 1
