Systematic punctuation of eukaryotic DNA by A+T-rich sequences.

Isodenaturation of avian and mammalian DNA of Mr greater than 2.5 X 10(8) in 85% (vol/vol) formamide led to the observation by electron microscopy of A+T-rich zones ("AT-rich linkers") of 300-3000 base pairs which are distributed over the entire genome in a characteristic pattern. Linkers of mean length 800 base pairs are found either isolated or in clusters of about four to six linkers of more heterogeneous size separated on average by 2500 base pairs (in duck DNA). In between clusters, single linkers segment the DNA at distances of 10 to more than 100 kilobase pairs, with a majority in the range of 10-30 kilobase pairs. An analogous organization of linkers is found in rat and mouse DNA. The internal organization of the clusters varies, however, in a fashion that might be related to the large amount of light satellite DNA in the mouse and its apparent absence in rat and avian DNA. It is possible to fragment the DNA under appropriate conditions by the single-strand-specific nuclease S1 at the site of these A+T-rich zones and to obtain, on alkaline sucrose gradients, a bimodal pattern of DNA fragments of the size corresponding to the pattern observed by electron microscopy. The implications of this observation for DNA organization, chromatin structure, units of transcription and replication, and possible targets of A+T-specific drugs are discussed.