Simpson-Golabi-Behmel syndrome (SGBS) is an X-linked gigantism syndrome characterized primarily by a coarse facies and somatic overgrowth which we have observed to be associated with an increased risk for embryonal tumors. Genetic linkage analysis for two SGBS kindreds in which X linked dominant inheritance was observed has been conducted for the X chromosome. The closest linkage to SGBS was observed for the Xq26 locus HPRT (Z max = 7.45, theta max = 0.00). SGBS-Xq marker recombinations map the disease locus to the DXS425-DXS1123 interval on Xq25-q27. This maps the disease locus to a region known to contain a previously characterized chromosomal translocation breakpoint found in a young girl with somatic overgrowth. This observation may have implications for the cloning of the SGBS gene.
The spinal muscular atrophies (SMA) are among the most common autosomal recessive disorders. We have performed linkage analysis using both standard restriction fragment length polymorphisms (RFLPs) as well as microsatellite polymorphisms [Ca(n)] on 49 Canadian SMA families (types 1, 2, and 3) that both flank and are linked to SMA. The closest SMA linkage was observed with the MAP1B locus (zmax = 8.04, theta max = 0.0). Multipoint linkage analysis gave a high probability of SMA mapping between D5S6 and D5S39. Only one family (type 3) that fulfilled our diagnostic criteria for SMA showed nonlinkage with 5q13 markers. This study shows the feasibility of accurate molecular diagnosis of SMA utilizing 5q13 satellite polymorphisms.
The spinal muscular atrophies (SMAs) are among the most common autosomal recessive disorders. The mapping of the gene responsible for SMA to chromosome 5 has allowed the assessment of genetic heterogeneity in kindreds with a putative diagnosis of SMA. We report linkage analysis of 71 Canadian SMA families (types 1, 2, and 3) using polymorphisms that both flank and are linked to SMA. Data demonstrating nonlinkage to 5q markers were initially obtained in five kindreds; reexamination of the clinical status of these families showed that one fulfilled all the SMA diagnostic criteria, two showed patterns for which a diagnosis of SMA was possible but not conclusive, and two showed patterns for which the diagnosis of SMA appeared unlikely. This results in a degree of genetic heterogeneity between 1.5% and 4.5%. The three kindreds for which SMA appeared either possible or likely were simplex (ie, contained only one affected individual), and therefore the possibility that they represented new mutations could not be discounted. Thus, the significant majority of classic SMA cases are caused by a mutation in the 5q13.1 locus. Low genetic heterogeneity has implications for both genetic counseling and the applicability of conventional and genetic therapies following cloning of the SMA gene.
and reaction conditions were as described'5-except that a two minute extension time was used for MAPIB microsatellite repeats. Reaction products were run on an 8% polyacrylamide gel, the gel dried, and autoradiographs developed.In a second case, a 9 month old infant boy was admitted to paediatric ICU in respiratory failure. A diagnosis of type 1 SMA was made after EMG and muscle biopsy. The infant died at 10 months. The parents conceived again and a chorionic villus sampling was performed at 11 weeks. Two CVS strands were placed in 100 pl of dH2O and then added to an equal volume of 5% Chelex. Treatment thereafter was identical to that used for amniocyte DNA.The physical disposition and approximate
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