DNA topoisomerases catalyze the topological interconversions of DNA molecules which are required for several essential processes in DNA metabolism including replication, recombination, transcription, and chromosome separation at mitosis1}. They are the target for the action of potent antitumor and antibacterial agents. A bacterial type II topoisomerase, bacterial gyrase, is the target of the quinolone antibacterial agents2'3). The effectiveness of the quinolones indicates that bacterial DNA gyrase is a target for clinically useful antibacterial agents. This has stimulated interest in searches for non-quinolone DNA gyrase inhibitors. These searches have resulted in the discovery of 2 closely related antibacterial agents, cinodine and coumami-dine4j5). Cinodine has been shown to be a specific inhibitor of bacterial gyrase. We have screened
DNA has been isolated from herpesvirus of turkeys (HVT) virions and used to construct a partial gene library in pBR-322. The recombinants have been characterized and shown to contain HVT DNA inserts. A representative recombinant containing a 5.9-kilobase HindIII fragment was used as a probe to quantitate the yields of HVT DNA in vitro and to follow the kinetics of viral DNA replication. The data shown that in chicken fibroblasts, viral DNA synthesis initiates by about 12-14 hr postinfection and that the yield of progeny virus plateaus at 28-30 hr postinfection. Based upon quantitative hybridization to cloned DNA probes, we estimate that approximately 2000 HVT genomes are produced per infected cell in vitro; however, in vivo in persistently infected turkeys, the number of viral genomes was below the level of detection by Southern blotting.
In vitro, Plasmodium berghei infected erythrocytes incorporated 35S-methionine into 31 polypeptides with molecular weights from 21 kd to 300 kd. Hemoglobin and additional smaller molecular weight polypeptides were labelled with 35S-methionine by a population of uninfected, reticulocyte-rich rat erythrocytes. 3H-glucosamine was incorporated into at least 3 components by Plasmodium berghei infected erythrocytes. Uninfected, reticulocyte-rich rat erythrocytes did not incorporate 3H-glucosamine. Rabbit antisera against small, free plasmodia formed complexes which contained between 12 and 22 of the 31 labelled polypeptides in the 35S-methionine labelled antigen preparation. Rabbit antisera against soluble antigens washed from small, free plasmodia formed complexes containing many of the same labelled plasmodial polypeptides, however the reactions were particularly strong with those components which yielded polypeptides with molecular weights of 25 kd and 31 kd. Rabbit origin antisera against the 2 preparations did not form detectable complexes with the 3H-glucosamine labelled plasmodial components. Sera from rats undergoing progressive P. berghei infection formed complexes containing an increasing number of 35S-methionine labelled plasmodial polypeptides. Hyperimmune rat serum, the only serum protective upon passive transfer into mice, formed complexes containing 7 polypeptides with molecular weights of 35 kd, 75 kd, 80 kd, 92 kd, 100 kd, 150 kd and 190 kd. Antigens containing 1 or more of these polypeptides may be important in the induction of a protective antibody response against the parasite.
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