Replication of nodamura virus after transfection of viral RNA into mammalian cells in culture.

Nodamura virus (NOV) was purified from the hind limbs of infected suckling mice and used as a source of the two genomic RNAs of the virus, RNA 1 and RNA 2. Upon transfection of the viral RNAs into baby hamster kidney (BHK21) cells in culture, vigorous RNA replication ensued and single-stranded RNAs 1 and 2 accumulated to reach an abundance which approximated that of the cellular rRNAs. Transient synthesis of a small subgenomic RNA (RNA 3) was also observed, and double-stranded versions of RNAs 1, 2, and 3 were detected. Three major viral proteins were synthesized in transfected cells. Protein A (about 115 kDa) and protein B (about 15 kDa) were made transiently at early times after transfection, whereas a large amount of protein alpha (43 kDa), the precursor to the two viral coat proteins, was made continuously starting later in the infectious cycle. When very low concentrations of viral RNAs were used for transfection, preferential replication of RNA 1 occurred. This result was attributed to segregation of the transfected viral RNAs to separate cells in culture and the subsequent replication and amplification of RNA 1 in cells that had received no RNA 2. Accordingly, multiple passages of the viral RNAs by transfection at the limit dilution resulted in the purification of RNA 1 free of RNA 2 and demonstrated that RNA 1 was capable of prolonged autonomous replication which was also accompanied by the continuous synthesis of RNA 3. In cells transfected with RNA 1 alone, protein alpha was not synthesized and proteins A and B were made continuously. Electron microscopic analysis of BHK21 cells 24 h after transfection with NOV RNAs 1 and 2 showed that large numbers of virus particles accumulated in the cytoplasm and formed paracrystalline arrays in some regions. Whole NOV purified from transfected BHK21 cells was infectious for suckling mice and had an electrophoretic mobility that was similar but not identical to that of NOV purified from infected mouse muscle. The high yield of NOV, its simple genetic composition, and its unusual genome strategy make this virus an attractive system for the study of viral RNA replication in animal cells.

The effects of three serotypes of Ureaplasma urealyticum on spermatozoal motility and penetration in vitro.

The effects of incubation of spermatozoa with three serotypes of Ureaplasma urealyticum on spermatozoal motility and penetration in vitro were investigated. Using computer-assisted video microscopy, three parameters of motility were determined: individual path lengths, individual vectorial distances, and percentage motility. Polyacrylamide gels were used as a medium for assessment of spermatozoal penetration. Ureaplasma-infected spermatozoa did have significantly greater path lengths and individual distances than did uninfected controls, but ureaplasma infection had no significant effect on percentage motility. Overall, there were no significant differences in penetration distances between ureaplasma-infected spermatozoa and their corresponding uninfected controls. Our conclusion is that the ureaplasmas did not adversely affect motility or penetration when spermatozoa were incubated with ureaplasmas for 45 minutes at ureaplasma:sperm ratios as high as 100:1.

Control of expression of the herpes simplex virus-induced deoxypyrimidine triphosphatase in cells infected with mutants of herpes simplex virus types 1 and 2 and intertypic recombinants.

Infection of cells with herpes simplex virus type 1 (HSV-1) induces high levels of deoxypyrimidine triphosphatase. The majority of the enzyme activity is found in infected cell nuclei. A similar activity is induced by HSV type 2 (HSV-2) which, in contrast to the HSV-1 enzyme, fractionates to more than 99% in the soluble cytoplasmic extract. Of a series of temperature-sensitive mutants of HSV-1 studied, only the immediate-early mutants in complementation group 1-2 (strain 17 mutants tsD and tsK and strain KOS mutant tsB2) induced reduced levels of triphosphatase at nonpermissive temperature. Of a series of temperature-sensitive mutants of HSV-2 strain HG52, ts9 and ts13 failed to induce wild-type levels of the enzyme at nonpermissive temperature; ts9 was the most defective mutant with regard to triphosphatase expression of both herpes simplex virus serotypes. After shift-up from permissive to nonpermissive temperature, triphosphatase activity in cells infected with ts9 decreased rapidly, whereas all other mutants continued to exhibit enzyme levels comparable with controls kept at the permissive temperature. The type 1-specific nuclear expression of the triphosphatase was mapped physically by the use of HSV-1 x HSV-2 intertypic recombinants, based on enzyme levels different by more than two orders of magnitude found in nuclei of HSV-1- and HSV-2-infected cells. The locus for the type-specific expression maps between 0.67 and 0.68 fractional length on the HSV genome.