F. Costanzo scite author profile

In herpes simplex virus type 1 (HSV-1)-infected HEp-2 cells, amanitin added before or at various times after infection always reduced viral multiplication. Also, the three waves of transcription of HSV-1 DNA, which led to the synthesis of alpha, beta-, and gamma-polypeptides, were all sensitive to amanitin in HEp-2 cells, and the amanitin-sensitive RNA polymerase activities of isolated nuclei were equally sensitive to the inhibitor before and during the infection. On the contrary, HSV-1 DNA transcription was totally unaffected by amanitin in AR1/9-5B cells, a mutant subline of CHO cells that possesses an amanitin-resistant RNA polymerase B. Together, these results strongly suggest that HSV-1 DNA utilizes for its transcription a polymerase undistinguishable from host cell RNA polymerase B with respect to its sensitivity to amanitin.

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Inhibition of eukaryotic tRNA transcription by potential Z-DNA sequences.

Santoro¹,

Costanzo²,

Ciliberto³

1984

The EMBO Journal

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The effect of d(CA/TG)n DNA segments on tRNA transcription has been examined. Alternating purine‐pyrimidine tracts were cloned at a long distance from, adjacent to, or within the coding sequence of a tRNAPro gene from Caenorhabditis elegans and shown to be able to assume the A‐DNA conformation in vitro in physiological salt concentrations. The transcriptional level of these constructs was compared to that of normal tDNAPro by micro‐injection into Xenopus laevis oocytes. Our results show a strong inhibitory effect by potential Z‐DNA sequences only when these are placed in the flanking regions of the gene or when they are located between the elements (Box A and Box B) of the split promoter. Transcription was studied in parallel with supercoiled and linear DNA molecules carrying a d(CA/TG) stretch 124‐bp long in front of the tRNAPro gene. The results show the same level of inhibition of Po/III transcription regardless of the topological status of the injected DNA.

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Study of herpes simplex virus type 1 populations obtained from recurrences and primary infections

Mannini-Palenzona

Bartoletti

Foà-Tomasi

et al. 1985

Journal of Medical Virology

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The analysis of 23 clinical isolates of herpes simplex virus type 1 (HSV-1) showed that 15 of 15 isolates that had undergone a few passages in tissue culture (fresh isolates) and two of eight isolates that had never been passaged (new isolates) were composed of a mixed population with respect to plaque morphology in Vero cells. Cloning and characterization of 10 large plaque viruses (L variants) and nine small plaque viruses (S variants), obtained from seven different isolates, showed the following. BamHI DNA restriction patterns of the L and the S variants from a single isolate differed only with respect to the electrophoretic mobility of the fragments that contain reiteration of specific sequences; they did not differ regarding the presence or the absence of restriction endonuclease cleavage sites. The L and S variants differed with respect to the electrophoretic profiles of infected cell glycoproteins, thermosensitivity of growth and plaquing efficiency at 39 degrees C, and, at least in the case of the two couples of variants that we tested, pathogenicity for the mouse. The hypothesis that the L variants might arise from the S variant during in vivo replication is discussed.

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N-acetylgalactosaminyltransferase activity involved in O-glycosylation of herpes simplex virus type 1 glycoproteins

Serafini‐Cessi¹,

Dall’Olio²,

Scannavini³

et al. 1983

J Virol

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Selective Inhibition of a Nuclear RNA Polymerase in Cells infected with Frog Virus

Costanzo¹,

Plaça²,

Palenzona³

et al. 1970

Nature

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F. Costanzo

Evidence that herpes simplex virus DNA is transcribed by cellular RNA polymerase B

Inhibition of eukaryotic tRNA transcription by potential Z-DNA sequences.

Study of herpes simplex virus type 1 populations obtained from recurrences and primary infections

N-acetylgalactosaminyltransferase activity involved in O-glycosylation of herpes simplex virus type 1 glycoproteins

Selective Inhibition of a Nuclear RNA Polymerase in Cells infected with Frog Virus

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