Abnormal methylation pattern in constitutive and facultative (X inactive chromosome) heterochromatin of ICF patients

P Miniou, M Jeanpierre, V Blanquet… - Human molecular …, 1994 - academic.oup.com
P Miniou, M Jeanpierre, V Blanquet, V Sibella, D Bonneau, C Herbelin, A Fischer…
Human molecular genetics, 1994academic.oup.com
We have investigated the distribution of DNA methylatlon In chromosomes and nuclei of
normal individuals and ICF (Immunodeficiency, Centromeric Instability and Facial
abnormalities) syndrome patients, using 5-methyl-cytosine monoclonal antibody. In this
syndrome, DNA digestion with methyl-sensitive enzymes has previously shown a specific
hypomethylation of classical satellites located In constitutive heterochromatin. The
chromosome methylatlon pattern confirms this hypomethylation showing In addition a clear …
Abstract
We have investigated the distribution of DNA methylatlon In chromosomes and nuclei of normal individuals and ICF (Immunodeficiency, Centromeric Instability and Facial abnormalities) syndrome patients, using 5-methyl-cytosine monoclonal antibody. In this syndrome, DNA digestion with methyl-sensitive enzymes has previously shown a specific hypomethylation of classical satellites located In constitutive heterochromatin. The chromosome methylatlon pattern confirms this hypomethylation showing In addition a clear undermethylatlon of facultative heterochromatin (X Inactive chromosome). Antibodies give, In normal and ICF chromosomes, a non-uniform labeling of euchromatin, generating a weak R-IIke banding pattern on chromosomes. This pattern reflects an unequal distribution of DNA methylation over the genome disclosing another aspect of chromosome organization. The breakpoints of chromosome rearrangements and the heterochromatin stretchings observed In ICF patients were analyzed by means of In situ hybridization. These chromosome modifications Involve hypomethylated classical DNA satellite sequences. The underlying hypomethylation, associated with an abnormal chromatln organization, may predispose to chromosome Instability.
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