DNA replication kinetics of Prader-Willi/Angelman syndrome region of 15ql 1.2q12 was studied without synchronization in five human amniotic cell and five skin fibroblast strains with a marker 15 chromosome, i.e., 15p+ or der(15), as cytological marker to distinguish between the two homologs. BrdU-33258 Hoechst-Giemsa techniques were used to analyze and compare the late replication patterns in the 15ql 1.2q12 region between the homologs. Asynchronous replication between the homologs was observed in both amniocytes and fibroblasts. From cells of a marker 15 of known parental origin, the paternal 15ql 1.2q12 replicated earlier than that of the maternal 15 in 92%-95% of asynchronous metaphases. The remaining 5%-8% of asynchronous metaphases displayed maternal early/paternal late replication. This mosaic pattern of replication in the 15ql 1.2q12 region may be due to methylation mosaicism of genomic imprinting or a relative lack of self-control of replication. These results provide cytogenetic evidence of maternal imprinting and delayed replication in the 15ql 1.2q12 region.
Variation of DA/DAPI intensity in the Yq12 band was observed in five amniotic cell specimens and one blood specimen from the father of one fetus. Three distinct classes of Yq heterochromatin were identified by distamycin A (DA) treatment of the cell cultures and various staining techniques. The heterochromatin in the Yq11.23 sub-band does not undercondense when exposed to DA, and shows pale fluorescence with quinacrine staining, positive C-banding, and bright fluorescence with DA/DAPI technique. This class of heterochromatin was consistently observed in all specimens studied. The other two classes of heterochromatin are in the Yq12 band. Both show undercondensation when exposed to DA, quinacrine-bright fluorescence, and positive C-banding; however, one class of heterochromatin shows DA/DAPI-bright fluorescence and the other shows pale fluorescence. The size and banding intensity of the two classes of heterochromatin in Yq12 are variable. These results provide cytological evidence of heterogeneity within the Y heterochromatin region containing AT-rich DNA.
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