Summary. Chromosome 7 abnormalities are observed in a wide range of myeloid disorders, particularly myelodysplasia (MDS) and acute myeloid leukaemia (AML). Monosomy 7 and 7q deletions are the most frequent abnormalities, although translocations and inversions involving 7q also occur. The region 7q22±q34 may contain as many as four distinct minimal regions of deletion (MDRs), which are thought to contain one or more myeloid tumour-suppressor genes. We have defined previously the proximal breakpoint of a constitutional 7q22±q34 inversion, carried in a cell line derived from a member of a family with a history of MDS. A YAC clone spanning this breakpoint was identified. Both inversion breakpoints have now been cloned and sequenced, placing the proximal breakpoint 40 kb centromeric to the TAC2 (tachykinin 2) gene and the distal breakpoint 42 kb telomeric to the SSBP (mitochondrial single-stranded DNA-binding protein) gene. Sequence alignments revealed small (3±4 bp) duplications at the inversion breakpoints, suggesting that the mechanism of inversion involved the creation of staggered breaks and filling in of the overhanging ends. A 190-bp Alu±Alu deletion close to the distal breakpoint was also detected and may have contributed to the inversion.
Jacobsen syndrome is a haploinsufficiency disorder caused, most frequently by terminal deletion of part of the long arm of chromosome 11, with breakpoints in 11q23.3–11q24.2. Inheritance of an expanded p(CCG)n trinucleotide repeat at the folate-sensitive fragile site FRA11B has been implicated in the generation of the chromosome breakpoint in several Jacobsen syndrome patients. The majority of such breakpoints, however, map distal to this fragile site and are not linked with its expression. To characterize these distal breakpoints and ultimately to further investigate the mechanisms of chromosome breakage, a 40-Mb YAC contig covering the distal long arm of chromosome 11 was assembled. The utility of the YAC contig was demonstrated in three ways: (1) by rapidly mapping the breakpoints from two new Jacobsen syndrome patients using FISH; (2) by demonstrating conversion to high resolution PAC contigs after direct screening of PAC library filters with a YAC clone containing a Jacobsen syndrome breakpoint; and (3) by placing 23 Jacobsen syndrome breakpoints on the physical map. This analysis has suggested the existence of at least two new Jacobsen syndrome breakpoint cluster regions in distal chromosome 11.
Twenty-eight markers, both simple sequence repeats (SSRs) and restriction fragment length polymorphisms (RFLPs), were genotyped on members of 2 large pedigrees (OOA, BIP167) segregating bipolar affective disorder. Using the multipoint program "build" of CRIMAP and odds of placement 1000:1, a unique sex-averaged map was generated that spans 227 cM and includes 26 markers. The two other markers were placed on the map with a lower likelihood. The female recombination map is larger than the male recombination map by about 80%. Linkage analysis between the polymorphisms and the disease in the OOA screening pedigree did not result in any significantly positive lod scores nor did a non-parametric, identity-by-descent, method generate any significant p-values. BIP167 was analyzed for allele sharing at the simple sequence repeat loci and significant associations were not found. At present we conclude, that the pedigrees under study do not have a major predisposition gene for bipolar affective disorder on chromosome 6 under the diagnostic and transmission models analyzed by the 2 different methods.
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