Visualization and mapping of late nuclear adenovirus RNA

Nuclei of KB cells harvested at late stages of productive infection with adenovirus type 2 (Ad2) harbor RNA molecules which measure up to 13 μm in length, as determined by electron microscopy of denatured RNA. While some of the molecules display features of secondary structure that are characteristic for precursor rRNA, our interest was in those showing almost no intramolecular folding. When hybridized to double-stranded viral DNA under conditions which favor RNA:DNA duplex formation, nuclear AD2 RNA displaces the homologous DNA region and generates R loop structures whose size is proportional to the length of the hybridizing RNA. Slowly sedimenting RNA forms small R loops, whereas RNA of high sedimentation velocity generates loops that span a large proportion of the DNA length. Using SV40 sequences within Ad2⁺ND₄ hybrid DNA as a position marker, we oriented many of the R loops on the conventional Ad2 map. Our analysis was restricted to the most abundant sequences of late Ad2 nuclear RNA participating in R loop formation. A small but significant proportion of large RNA generates loops between map positions 0.3 and 0.9. The much more frequent RNA of intermediate size (although larger than mRNA) hybridizes with midpoints near map positions 0.55 and 0.88 — that is, near the gene locations for hexon and fiber. Our findings are compatible with the idea that the nuclear RNAs visualized in this study are intermediates in a processing pathway leading to mature forms of late Ad2 mRNA.     

The structure of replicating adenovirus 2 DNA molecules

Adenovirus 2 (Ad2)-infected KB cells were exposed to a 2.5 min pulse of ³H-thymidine at 19 hr after infection. The labeled DNA molecules were separated from cell DNA and mature Ad2 DNA by sucrose gradient sedimentation and CsCI equilibrium centrifugation under conditions designed to minimize branch migration and hybridization of single strands. Electron microscopy-of fractions containing radioactivity revealed two basic types of putative replicating molecules: Ad2 length duplex DNA molecules with one or more single-stranded branches (type I) and Ad2 length linear DNA molecules with a single-stranded region extending a variable distance from one end (type II). Length measurements, partial denaturation studies and 3′ terminal labeling experiments were consistent with the following model for Ad2 DNA replication. Initiation of DNA synthesis occurs at or near an end of the Ad2 duplex. Following initiation, a daughter strand is synthesized in the 5′ to 3′ direction, displacing the parental strand with the same polarity. This results in the formation of a branched replicating molecule (type I). Initiations at the right and left molecular ends are approximately equal in frequency, and multiple initiations on the same replicating molecule are common. At any given displacement fork in a type I molecule, only one of the two parental strands is replicated. Two nonexclusive mechanisms are proposed to account for the replication of the other parental strand. In some cases, before completion of a round of displacement synthesis initiated at one end of the Ad2 duplex, a second initiation will occur at the opposite end. In these doubly initiated molecules, both parental strands serve as templates for displacement synthesis. Two type II molecules are generated when the oppositely moving displacement forks meet. Alternatively, displacement synthesis may proceed to the end of the Ad2 duplex, resulting in the formation of a daughter duplex and a parental single strand. Replication of the displaced parental strand is then initiated at or near its 3′ terminus, producing a type II molecule. Daughter strand synthesis proceeds in the 5′ to 3′ direction in type II molecules generated by either mechanism, and completion of synthesis results in the formation of a daughter duplex.     

Use of Nondefective Adenovirus-Simian Virus 40 Hybrids for Mapping the Simian Virus 40 Genome

A series of viable recombinants between adenovirus 2 (Ad2) and simian virus 40 (SV40) (nondefective Ad2-SV40 hybrids) have been isolated. The members of this series (designated Ad2(+)ND(1) through Ad2(+)ND(5)) differ from one another in the early SV40-specific antigens and the SV40-specific RNA species which they induce in infected cells. They also contain different amounts of SV40 DNA as shown by RNA-DNA hybridization techniques. We have examined the structure of the DNA molecules from these hybrids, using electron microscope heteroduplex mapping techniques. Each hybrid was found to contain a single segment of SV40 DNA of characteristic size covalently inserted at a unique location in the adenovirus 2 DNA molecule. The SV40 segments of the various hybrids formed an overlapping series with a common end point. When the results of the electron microscopic study were combined with data on antigen induction, it was found that a self-consistent map could be constructed which related specific regions of the SV40 genome to the induction of specific antigens. The order of these early SV40 antigen inducing regions in the SV40 DNA segments contained in the nondefective hybrids is: U antigen, tumor specific transplantation antigen, and T antigen with the U antigen region being nearest the common end point.