Synchrony between DNA synthesis and thymidine incorporation into DNA in regenerating rat liver

DNA synthesis in regenerating liver was studied to determine whether the onset of stimulated DNA synthesis preceded the onset of increased incorporation of thymidine into DNA. Thymidine incorporation into hepatic DNA was not stimulated 15 h after operation, but was stimulated after 18 h; peak stimulation occurred 30 h after operation. Thymidine kinase activity was stimulated 24 h after operation; highest kinase activity was observed at 36 h. The onset of stimulated DNA synthesis was estimated by following the incorporation of labeled aspartic acid, sodium formate, adenine or orotic acid into appropriate DNA bases, viz., thymine, adenine, adenine or cytosine, respectively. Incorporation of adenine and orotic acid was stimulated between 15 h and 18 h after operation; incorporation of aspartic acid and sodium formate was stimulated between 18 h and 21 h after operation.The incorporation of thymidine into DNA was accelerated by stress stimulus and was inhibited by hydrocortisone. Changes in thymidine kinase activity also were correspondingly accelerated or delayed. Incorporation of labeled thymidine, adenine, formate, orotic acid or thymine into appropriate DNA bases, viz., thymine, adenine, adenine, cytosine or thymine, respectively, was stimulated by stress stimulus or was inhibited by hydrocortisone.It was concluded from these data that stimulation of DNA synthesis and of thymidine incorporation into DNA was essentially synchronized in regenerating rat liver. Results from this study were compared with results from similar studies in 2 other tissues, and the limitations, attendant with using thymidine incorporation into DNA as an indicator of stimulated DNA synthesis, were discussed.     

A New Synthesis of the Potent and Selective Anti-Herpesvirus Agent (S)-1-[3-Hydroxy-2-(Phosphonylmethoxy)Propyl]Cytosine

Abstract

A new synthetic approach to (S)-1-[3-hydroxy-2-(phosphonyl-methoxy)propyl]cytosine (3, (S)-HPMPC) is based on coupling of the heterocyclic moiety with a glycerol-derived side chain, followed by introduction of the phosphonylmethyl ether group.     

Genetic Analyses of the Polarity Alleles in Recombinants from Mitochondrial Genetic Crosses

A number of minority recombinant and parental types from a heterosexual cross were analyzed for the omega allele they carry. It was found that recombinant progeny can be omega(-), that minority parental types among the progeny can be omega(+) rather than omega(-), and, finally, that certain of the results suggest that the omega locus may not be at the proximal end of the mitochondrial genetic map (Bolotin et al., 1971; Grivell et al., 1973) but rather may lie between the [cap1-r/cap-s] and [ery1-r/ery-s] loci.