FLUORESCENCE IN-SITU HYBRIDIZATION STUDIES TO CHARACTERIZE COMPLETE AND PARTIAL MONOSOMY-7 IN MYELOID DISORDERS

Eight patients with myeloid disorders characterised by a karyotype inc luding apparent monosomy or partial monosomy 7, in the presence of a r ing or marker chromosome, were investigated by fluorescence in situ hy bridisation (FISH) with a chromosome 7 centromere-specific probe and a n Alu-PCR derived chromosome 7 paint. In 4 of 5 cases a ring chromosom e was shown to be of chromosome 7 origin; in one of these the apparent ring was shown to consist solely of chromosome 7 centromeric material , and in the fifth case the ring was derived from chromosome 18. In th ree cases monosomy 7 had arisen during the course of karyotype evoluti on and was clearly not the primary cytogenetic abnormality. One furthe r case demonstrated fragmentation and cryptic translocation of chromos ome 7 material. In the last case a chromosome described as der(1)t(1;7 )(p11;p11) was redefined as diet (1;7)(p11;q11). The application of FI SH has enabled a more accurate characterisation of chromosome abnormal ities, and extended studies of this type may eventually lead to more p recise prognostic groups defined by karyotype. Genes Chromosom Cancer 10:244-249 (1994). (C) 1994 Wiley-Liss, Inc.