Characterization of a temperature-sensitive defect of enterovirus 70: effect of elevated temperature on in vitro transcription

A crude replication complex prepared from enterovirus 70-infected cells was used to study the temperature-sensitive characteristic of the virus. The complex showed a temperature sensitivity in the in vitro incorporation of radiolabeled ribonucleoside triphosphate. The endonuclease itself did not account for the restricted RNA synthesis at the nonpermissive temperature. Analyses of the in vitro products by both gel electrophoresis and sucrose density gradient centrifugation showed that the complex synthesized three types of viral RNA only when incubated for a short period of time at the nonpermissive temperature. When the replication complex was treated with a detergent (deoxycholic acid), incorporation of ribonucleoside triphosphate into RNA at the permissive temperature was reduced to the level of that at the nonpermissive temperature. In addition, the in vitro RNA synthesis by the enterovirus 70 replication complex at the permissive temperature required a higher concentration of ATP than of other ribonucleoside triphosphates, whereas such a preference for ATP was not found in the reaction at the nonpermissive temperature. The results indicate that the initiation step of RNA synthesis by the complex is blocked at the nonpermissive temperature. The possible implications of these findings are discussed.     

Alterations of deoxyribonucleoside triphosphate pools in Escherichia coli: effects on deoxyribonucleic acid replication and evidence for compartmentation.

Inhibition of ribonucleic acid synthesis in Escherichia coli 15 TAU bar with rifampin or streptolydigin leads to large increases in the sizes of cellular ribonucleoside and deoxyribonucleoside triphosphate pools. Inhibition of protein synthesis leads to increases in the sizes of all nucleoside triphosphate pools except the guanosine triphosphate and deoxyguanosine triphosphate pools; a decrease in the size of the latter pool may be responsible for the slowing of deoxyribonucleic acid replication fork movement observed in this strain in the absence of protein synthesis. Analysis of the kinetics of incorporation of labeled precursors into deoxyribonucleic acid and into cellular pools suggests that functional compartmentation of nucleotide pools exists, allowing the incorporation of exogenously supplied precursors into deoxyribonucleic acid without prior equilibration with the cellular pools.     

The broad-spectrum antiviral ribonucleoside ribavirin is an RNA virus mutagen

The ribonucleoside analog ribavirin (1-beta-D-ribofuranosyl-1,2, 4-triazole-3-carboxamide) shows antiviral activity against a variety of RNA viruses and is used in combination with interferon-alpha to treat hepatitis C virus infection. Here we show in vitro use of ribavirin triphosphate by a model viral RNA polymerase, poliovirus 3Dpol. Ribavirin incorporation is mutagenic, as it templates incorporation of cytidine and uridine with equal efficiency. Ribavirin reduces infectious poliovirus production to as little as 0. 00001% in cell culture. The antiviral activity of ribavirin correlates directly with its mutagenic activity. These data indicate that ribavirin forces the virus into 'error catastrophe'. Thus, mutagenic ribonucleosides may represent an important class of anti-RNA virus agents.     

Ribonucleotide depletion in glucose-deprived tumor cells - the role of RNA synthesis.

Ribonucleoside triphosphate pools decreased rapidly and profoundly in Ehrlich ascites tumor cells incubated in glucose-free medium. Ribonucleoside triphosphate pools decreased to a lesser degree and total ribonucleotide pools remained normal in cells that were incubated with actinomycin D or with cycloheximide for 30 min before deprivation of glucose. RNA synthesis rates in glucose-deprived cells were 53–70% of the rates in glucose-supplemented cells. These findings suggest that ribonucleoside triphosphate consumption in RNA synthesis is an important factor in the depletion of ribonucleotide pools in tumor cells subjected to glucose starvation. Restriction of ATP regeneration is the other major factor.     

RNA polymerase activity in germinating onion seeds

Frozen sections of endosperm cut from dry unimbibed onion seed were immersed in an aqueous solution of tritium labelled triphosphate; nucleolar RNA polymerase (ribonucleoside triphosphate: RNA nucleotidyltransferase E.C. 2.7.7.6) activity was detected by autoradiography after soaking for 10–15 min in the solution of the radioactive nucleotide. Throughout germination, activity appears to be mainly confined to the nucleolus with chromatin incorporation being very low or non-existent. In the embryo, in contrast to the endosperm, chromatin activity is initiated after 1 hr presoaking, while the nucleolus displays a lag of several hours. No incorporation could be detected in vivo before 18 hr.     

Lethal mutagenesis of poliovirus mediated by a mutagenic pyrimidine analogue

Lethal mutagenesis is the mechanism of action of ribavirin against poliovirus (PV) and numerous other RNA viruses. However, there is still considerable debate regarding the mechanism of action of ribavirin against a variety of RNA viruses. Here we show by using T7 RNA polymerase-mediated production of PV genomic RNA, PV polymerase-catalyzed primer extension, and cell-free PV synthesis that a pyrimidine ribonucleoside triphosphate analogue (rPTP) with ambiguous base-pairing capacity is an efficient mutagen of the PV genome. The in vitro incorporation properties of rPTP are superior to ribavirin triphosphate. We observed a log-linear relationship between virus titer reduction and the number of rPMP molecules incorporated. A PV genome encoding a high-fidelity polymerase was more sensitive to rPMP incorporation, consistent with diminished mutational robustness of high-fidelity PV. The nucleoside (rP) did not exhibit antiviral activity in cell culture, owing to the inability of rP to be converted to rPMP by cellular nucleotide kinases. rP was also a poor substrate for herpes simplex virus thymidine kinase. The block to nucleoside phosphorylation could be bypassed by treatment with the P nucleobase, which exhibited both antiviral activity and mutagenesis, presumably a reflection of rP nucleotide formation by a nucleotide salvage pathway. These studies provide additional support for lethal mutagenesis as an antiviral strategy, suggest that rPMP prodrugs may be highly efficacious antiviral agents, and provide a new tool to determine the sensitivity of RNA virus genomes to mutagenesis as well as interrogation of the impact of mutational load on the population dynamics of these viruses.     

Nucleic acid enzymology of extremely halophilic bacteria. Halobacterium cutirubrum ribonucleic acid-dependent ribonucleic acid polymerase

1. Crude extracts of the extreme halophile Halobacterium cutirubrum contain separable DNA-dependent and RNA-dependent RNA polymerases. 2. The RNA-dependent enzyme has been purified about 2800-fold. 3. It requires RNA, preferably of high molecular weight, and all four ribonucleoside triphosphates to incorporate (14)C-labelled nucleoside triphosphate into an acid-insoluble, ribonuclease-sensitive product. 4. Both the stability and activity of the RNA polymerase are relatively insensitive to changes in potassium chloride or sodium chloride concentration, but incorporation is stimulated by both Mg(2+) and Mn(2+). 5. The molecular weight of the enzyme is about 17000-18000.     

RNA polymerase activity in bovine spermatozoa

Washed mature spermatozoa from bulls incorporate ribonucleoside triphosphates into RNA using an endogenous template. Maximum incorporation was observed at 31 degrees C in the presence of MgCl2, all four ribonucleoside triphosphates, beta-mercaptoethanol, and glycine sodium hydroxide buffer at pH 9.0. The amount of synthesis was linearly dependent upon the concentration of spermatozoa and continued for at least 4 h. Digestion studies revealed the RNA to be present in a protected (intracellular?) location in the spermatozoa. The RNA synthesis was inhibited by ethidium bromide, rifampicin, acriflavine, actinomycin D, and caffeine, but not by alpha-amanitine or rifamycin SV. Fractionation of the spermatozoa by sonication and separation of the heads and tails by centrifugation through a discontinuous gradient revealed that more than half of the total RNA polymerase activity was associated with the tail fraction.     

Initiator RNA of discontinuous DNA synthesis in human lymphocytes

A short RNA covalently associated with nascent DNA has been isolated after synthesis in vitro with labeled ribonucleoside triphosphates and the removal of DNA by DNAase digestion. The RNA migrates in polyacrylamide gels or chromatographs on DEAE-Sephadex columns as a relatively discrete oligonucleotide 8–11 nucleotides in length. The RNA is associated primarily with nascent DNA with stoichiometry of approximately one per DNA chain. The RNA has a triphosphate group at the 5′ end and 2 or 3 deoxynucleotide residues at the 3′ end that are not removed by DNAase. These results further support a role for the RNA as an initiator of discontinuous DNA synthesis. Examination of sequences present at the 3′ end of the RNA using RNAase to effect transfer of ³²PO₄ from ³²P-labeled DNA to covalently attached RNA indicates that a diverse, rather than unique, set of sequences are present in the RNA.     

Isolation and properties of a testicular ribonucleic acid polymerase

A procedure is described for isolation in a soluble form of a ribonucleic acid polymerase from rat testes. Evidence is presented that this enzyme catalyzes three distinct reactions: (a) deoxyribonucleic acid-directed synthesis of RNA in the presence of all four major ribonucleoside triphosphates; (b) DNA-primed formation of polyadenylic acid and other ribohomopolymers in the presence of single ribonucleoside triphosphate substrates; (c) synthesis of complementary polyribonucleotides in the presence of various ribohomopolymer primers. The properties of these reactions are discussed with respect to metal ion requirements, affinities for ribonucleoside triphosphates and primer polynucleotides, heat denaturation of DNA primers, and the effects of ionic strength, beta-mercaptoethanol, polyamines, temperature, and inhibitors on the rates and extent of the reactions. The testicular ribonucleic acid polymerase is a very unstable enzyme that can be stabilized by high concentrations of glycerol.     

Mode of enhancement in ribonucleic acid synthesis directed by chromium (III)-bound deoxyribonucleic acid

By forming a complex with calf thymus DNA, Cr(III), i.e., CrCl3 and Cr(NO3)3, significantly enhanced its template activity for in vitro RNA synthesis as assayed by 3H incorporation from [5-3H]uridine triphosphate (UTP). The extent of the augmentation in RNA synthesis was proportional to the binding ratio of Cr(III) to the template DNA. K2CrO4, on the other hand, neither bound to DNA nor enhanced its template activity. Experiments using rifampicin and heparin suggested that incorrect and nonviable initiation sites for RNA synthesis became functional in Cr(III)-bound DNA. The incorporation of [gamma-32P]adenosine triphosphate (ATP) into RNA synthesized on Cr(III)-bound DNA was 8 to 9 times greater than that on control DNA. This value was much higher than that of the 3H incorporation form [5-3H]UTP, i.e., the incorporation of 32P on Cr(III) bound DNA was 8 to 9 times greater that of 3H and less than twice that on control DNA. These results suggest that Cr(III) possibly induces the abnormal synthesis of RNA of a very low molecular weight, for most if not all the molecules, by binding to the template DNA.     

Nucleoside triphosphate phosphohydrolase associated with cytoplasmic polyhedrosis virus.

Nucleoside triphosphate phosphohydrolase [EC 3.6.1.15] activity was found to be included in silkworm cytoplasmic polyhedrosis (CP) virus, which synthesizes mRNA carrying the 5'-terminal modification. This enzyme releases orthophosphate from the gamma-position in a nucleoside triphosphate, leaving nucleoside diphosphate. The rate of hydrolysis of ATP is faster than that of any other ribonucleoside triphosphate. Deoxy ATP is hydrolyzed rather faster than ATP. However, polynucleotides carrying triphosphate at the 5'-terminus, that is, 4S RNA which was synthesized by E. coli RNA polymerase [EC 2.7.7.6] using calf thymus DNA as a template, and the phage Q beta RNA (30S), are not effective substrates for this enzyme. Although the CP virion loses the viral genome and one kind of protein component on proteolytic treatment with pronase, the partially degraded virion still retains phosphohydrolase activity. The phosphohydrolase must therefore be associated firmly with the virion. This enzyme does not require the presence of nucleic acid for its function. Phosphohydrolysis of ATP by this enzyme activity represents a first step in the synthesis of the 5'-terminal modified mRNA of CP virus.