Separation of the herpesvirus deoxyribonucleic acid duplex into unique fragments and intact strand on sedimentation in alkaline gradients.

Abstract

Deoxyribonucleic acid (DNA) extracted from herpes simplex virions forms multiple partially overlapping bands upon denaturation and centrifugation in alkaline sucrose density gradients. The most rapidly sedimenting DNA corresponds to an intact strand 48 x 10(6) daltons in molecular weight. In this study, we analyzed the DNA fragments generated in alkaline sucrose gradients with respect to size and uniqueness of base sequences. The distribution of sedimentation constants of the various fragments obtained in numerous gradients showed that the fragments smaller than the whole strand fall into six distinct classes ranging in molecular weight from 10 x 10(6) to 39 x 10(6) daltons. Four types of DNA strands can be reconstructed from the whole strand and six fragments on the basis of their molecular weights. DNA from each of the bands self-hybridizes to a lower extent than unfractionated viral DNA, indicating that each of the bands preferentially contains sequences from one unique strand. The data permit reconstruction of four possible types of DNA duplexes differing in the positions of the strand interruptions. Analysis of viral DNA extracted from nuclei of cells labeled with (3)H-thymidine for intervals from 3 to 120 min showed that nascent DNA is invariably attached to small fragments and that the fragments become elongated only upon prolonged incubation of cells. The experiments suggest that viral DNA replication begins at numerous initiation sites along each strand and that the elongation beyond the size of the replication unit involves repair or ligation, or both. Since newly made DNA yields more fragments than viral DNA extracted from mature virions, it is suggested that the fragmentation of mature DNA on denaturation with alkali arises from incomplete processing of specific initiation sites. Comparison of viral DNA extracted from nuclei with that extracted from mature cytoplasmic virions in cells labeled for 120 min indicates that packaged DNA is not randomly selected from among the nuclear DNA population but rather represents DNA molecules which in alkaline gradients yield a minimal number of fragments.