RT-PCR for confirmation of echovirus 30 isolated in Belém, Brazil.

Echovirus (Echo) 30 or human enterovirus B is the most frequent enterovirus associated with meningitis cases. Epidemics and outbreaks of this disease caused by Echo 30 have occurred in several countries. In Brazil, Echo 30 has been isolated from sporadic cases and outbreaks that occurred mainly in the south and southeast regions. We used RT-PCR to examine Echo 30 isolates from meningitis cases detected from March 2002 to December 2003 in Belém, state of Pará, in northern Brazil. The patients were attended in a Basic Health Unit (State Health Secretary of Pará), where cerebrospinal fluid (CSF) was collected and stored in liquid nitrogen. Weekly visits were made by technicians from Evandro Chagas Institute to the health unit and samples were stored at -70 degrees C in the laboratory until use. HEp-2 and RD cell lines were used for viral isolation and neutralization with specific antisera for viral identification. RNA extraction was made using Trizol reagent. The RT-PCR was made in one step, and the total mixture (50 microL) was composed of: RNA, reaction buffer, dNTP, primers, Rnase inhibitor, reverse transcriptase, Taq polymerase and water. The products were visualized in agarose gel stained with ethidium bromide, visualized under UV light. Among the 279 CSF samples examined, 30 (10.7%) were EV positive, 29 being Echo 30 and one was Cox B. Nineteen Echo 30 were examined with RT-PCR; 18 tested positive (762 and 494 base pairs). The use of this technique permitted viral identification in less time than usual, which benefits the patient and is of importance for public-health interventions.

RT-PCR for confirmation of echovirus 30 isolated in Belém, Brazil

Echovirus (Echo) 30 or human enterovirus B is the most frequent enterovirus associated with meningitis cases. Epidemics and outbreaks of this disease caused by Echo 30 have occurred in several countries. In Brazil, Echo 30 has been isolated from sporadic cases and outbreaks that occurred mainly in the south and southeast regions. We used RT-PCR to examine Echo 30 isolates from meningitis cases detected from March 2002 to December 2003 in Belém, state of Pará, in northern Brazil. The patients were attended in a Basic Health Unit (State Health Secretary of Pará), where cerebrospinal fluid (CSF) was collected and stored in liquid nitrogen. Weekly visits were made by technicians from Evandro Chagas Institute to the health unit and samples were stored at -70°C in the laboratory until use. HEp-2 and RD cell lines were used for viral isolation and neutralization with specific antisera for viral identification. RNA extraction was made using Trizol reagent. The RT-PCR was made in one step, and the total mixture (50 æL) was composed of: RNA, reaction buffer, dNTP, primers, Rnase inhibitor, reverse transcriptase, Taq polymerase and water. The products were visualized in agarose gel stained with ethidium bromide, visualized under UV light. Among the 279 CSF samples examined, 30 (10.7 percent) were EV positive, 29 being Echo 30 and one was Cox B. Nineteen Echo 30 were examined with RT-PCR; 18 tested positive (762 and 494 base pairs). The use of this technique permitted viral identification in less time than usual, which benefits the patient and is of importance for public-health interventions.

Inhibition of avian metapneumovirus (AMPV) replication by RNA interference targeting nucleoprotein gene (N) in cultured cells.

Avian metapneumovirus (AMPV) is the primary causative agent of severe rhinotracheitis in turkeys. It is associated with swollen head syndrome in chickens and is the source of significant economic losses to animal food production. In this study, we designed specific short interfering RNA (siRNA) targeting the AMPV nucleoprotein (N) and fusion (F) genes. Three days post-virus infection, virus titration, real time RT-PCR, and RT-PCR assays were performed to verify the effect of siRNA in AMPV replication. A marked decrease in virus titers from transfected CER cells treated with siRNA/N was observed. Also, the production of N, F, and G mRNAs in AMPV was decreased. Results indicate that N-specific siRNA can inhibit virus replication. In future studies, a combination of siRNAs targeting the RNA polymerase complex may be used as a tool to study AMPV replication and/or antiviral therapy.

Lysine directed cross-linking of viral DNA-RNA:DNA hybrid substrate to the isolated RNase H domain of HIV-1 reverse transcriptase.

An isolated ribonuclease H domain of HIV-1 reverse transcriptase is capable of specifically removing the tRNA primer within an oligonucleotide mimic. The determinants for substrate specificity are located in a region within the terminal octanucleotide of the acceptor stem of the tRNA. Recognition of the substrate by HIV-1 RNase H was analyzed by the introduction of a cross-linking reagent directed toward lysines on the thymine residue complementary to the scissile bond, facing the major groove of the DNA-RNA:DNA substrate. Cross-linking of the modified substrate to RNase H required the presence of Mn(2+). The Mn(2+) titration of cross-linking paralleled the Mn(2+) requirement for activity. Modified substrate quenched with glycine prior to binding of substrate was efficiently cleaved, whereas the RNA within the cross-linked product was intact. Tryptic digestion of the isolated RNase H-nucleic acid covalent complex revealed a main cross-linked peptide whose N-terminal peptide sequence is VVTLTDTTNQ, indicating that the cross-linked lysine corresponds to Lys476. Cross-linking to K476 was confirmed by analysis of K476C RNase H. Mutation of K476C disrupted the chemical cross-linking while maintaining activity. On the basis of the size of the cross-linker arm, the results indicate that K476 is in closer proximity to the tRNA mimic substrate within the isolated RNase H domain than observed for the RNase H-resistant polypurine tract (PPT) substrate within the HIV-1 RT.