Rapid genome sequencing of RNA viruses.We developed a system for rapid determination of viral RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic sequences whereby genomic sequence is obtained from cultured virus isolates without subcloning into plasmid vectors. This method affords new opportunities to address the challenges of unknown or untypeable emerging viruses. ********** Over the past few years, global migration has led to emerging infectious diseases that pose substantial risks to public health. To prevent potential outbreaks, early detection of infectious pathogens is necessary. In particular, the recent outbreak of severe acute respiratory syndrome Severe Acute Respiratory Syndrome (SARS) Definition Severe acute respiratory syndrome (SARS) is the first emergent and highly transmissible viral disease to appear during the twenty-first century. (SARS) provided important lessons on how unknown viruses should be detected rapidly. Thus, a standardized and qualified system is required for rapid nucleic acid sequence determination for newly emerging viruses. Recently, we developed a new method for detecting RNA viruses. This method, based on eDNA representational difference analysis Representational Difference Analysis (RDA) is a technique used in biological research to find differences in two genomic or cDNA samples. Genomes or cDNA sequences from two samples (i.e. (cDNA RDA RDA abbr. recommended daily allowance Recommended Dietary Allowance (RDA) The Recommended Dietary Allowances (RDAs) are quantities of nutrients in the diet that are required to maintain good health in people. ), uses 96 hexanucleotides that are not suitable for priming ribosomal RNAs but that normally prime most of the genome of an RNA virus as primers for reverse transcription in eDNA RDA (1). However, the RDA method with a cloning step requires at least 1 week for the determination of the nucleic acid sequence. The Method Our new system for rapid determination of viral RNA sequence (RDV RDV Rendez-Vous RDV Rendezvous (Buick SUV) RDV Rapid Design Visualization RDV Rice Dwarf Virus RDV Recommended Daily Value RDV Repeatable Digital Validation RDV Reference Dose Values RDV Rotary Drum Vacuum ) uses whole-genome amplification and direct sequencing techniques (Figure 1). The RDV method comprises 6 procedures: 1) effective destruction of cellular RNA and DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. for semipurification of viral particles, 2) effective elimination of DNA fragments by using a pre filtration column system and elution elution /elu·tion/ (e-loo´shun) in chemistry, separation of material by washing; the process of pulverizing substances and mixing them with water in order to separate the heavier constituents, which settle out in solution, from the of small amounts of RNA, 3) effective synthesis of first- and second-strand cDNAs, 4) construction and amplification of a eDNA library, 5) construction of a second eDNA library, and 6) direct sequencing using optimized primers. The RDV method enables a broad range of partial nucleotide sequences within the entire viral RNA genome to be obtained within 2 days without cloning into plasmids. [FIGURE 1 OMITTED] To eliminate contaminating cellular RNA and DNA from the samples, 0.001 [micro]g of RNase A (Qiagen, Hilden, Germany) and 1 [micro]L (2 U) of Turbo DNA-free DNase I (Ambion, Austin, TX, USA) with 1x Turbo DNA-free buffer were incubated at 37[degrees]C for 30 min under conditions that prevented destruction of viral RNA in the viral particles. The RNA in the viral particles was then extracted within 30 min by using a total RNA isolation mini kit (Agilent Technologies Inc., Palo Alto, CA, USA). We confirmed that DNA was effectively eliminated by this RNA extraction kit. In accordance with the Invitrogen manual, eDNA was synthesized, by using random hexamers (Takara Bio Inc., Kyoto, Japan) and Superscript III (Invitrogen, Carlsbad, CA, USA) lacking RNase H activity, at 50[degrees]C for 1 h. Then 60 U of RNase H (Takara Bio Inc.) added before synthesis of second-strand cDNA at 50[degrees]C for 1 h. In accordance with the manual, a whole genome amplification In many fields of research, including preimplantation genetic diagnosis, cancer research or forensic medicine, the scarcity of genomic DNA can be a severely limiting factor on the type and quantity of genetic tests that can be performed on a sample. system (WGA WGA Windows Genuine Advantage (Microsoft) WGA Writers Guild of America (union for screenwriters) WGA Wise Giving Alliance (Better Business Bureau) WGA wheat germ agglutinin ; Sigma-Aldrich, Saint Louis, MO, USA), which was developed for amplification of genomic DNA, was used to amplify viral double-stranded cDNA. This process was performed within 90 min. Instead of the Taq polymerase recommended in the kit, we used 1.25 U of AmpliTaq Gold LD (Applied Biosystems, Foster City, CA, USA) to obtain a high yield of the PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) products. Primers were provided in the WGA kit, but no information regarding their sequences was obtained. The reaction mixture was heated at 95[degrees]C for 9 min (for activation of AmpliTaq Gold), followed by 70 cycles of amplification using Mastercycler (Eppendorf AG, Hamburg, Germany). Each PCR cycle consisted of annealing annealing (ənēl`ĭng), process in which glass, metals, and other materials are treated to render them less brittle and more workable. at 68[degrees]C for 1 min, primer extension at 72[degrees]C for 5 min, and denaturation denaturation, term used to describe the loss of native, higher-order structure of protein molecules in solution. Most globular proteins exhibit complicated three-dimensional folding described as secondary, tertiary, and quarternary structures. at 94[degrees]C for 1 min. The 1st eDNA library was digested with 40 U of HaeIII (Takara Bio Inc.) at 37[degrees]C for 30 min. DNA was purified by using the MonoFas DNA isolation system (GL Science, Tokyo, Japan), and a blunt EcoRI-NotI-BamHI adaptor (10 pmol; Takara Bio Inc.) was ligated at 16[degrees]C for 30 min by using DNA Ligation ligation /li·ga·tion/ (li-ga´shun) the application of a ligature. tubal ligation sterilization of the female by constricting, severing, or crushing the uterine tubes. Kit, Mighty Mix (Takara Bio Inc.). The second eDNA library was amplified by PCR with specially designed primer sets in which 6 nucleotides composed of CC (HaeIII-digested sequence) and 4 variable nucleotides were added to the 3' end of the adaptor sequence (Figure 2). For example, 1 primer set was as follows: forward primer, H1-1: 5'-AATTCGGCGGCCGCG GATCCCCGGGG-3'; reverse primer H9-3: 5'-AATT CGGCGGCCGCGGATCCCCAGGA-3' (the adaptor sequence is underlined, and the HaeIII-digested sequence is shown in italics) (Figure 2). [FIGURE 2 OMITTED] We always used >12 primer sets and 0.83 p, mol of each primer per cDNA library. PCR was performed with AmpliTaq Gold Master Mix (Applied Biosystems). The reaction mixture was heated at 95[degrees]C for 12 min, followed by 70 cycles of amplification. Each PCR cycle consisted of annealing and primer extension at 72[degrees]C for 30 s and denaturation at 94[degrees]C for 30 s. A single band was consistently obtained in [approximately]50% of the reactions. DNA was purified from the PCR by using MonoFas. Occasionally, we purified DNA fragments from the gels when >2 bands were detected. Direct sequencing was performed with the forward primer, reverse primer, or both. When the number of viral particles in the sample was high, we omitted the RNase A and DNase I treatments and used the RNeasy Mini Kit (Qiagen) for RNA extraction. We occasionally used a whole transcriptome The transcriptome is the set of all messenger RNA (mRNA) molecules, or "transcripts", produced in one or a population of cells. The term can be applied to the total set of transcripts in a given organism, or to the specific subset of transcripts present in a particular cell type. amplification kit (Rubicon Genomics Inc, Ann Arbor, MI, USA) instead of the WGA kit because both kits yielded similar amplification results. In preliminary studies that used referential RNA viruses, we attempted to determine the nucleic acid sequences of SARS coronavirus, mouse hepatitis virus Mouse hepatitis virus is a virus of the family Coronaviridae, genus coronavirus. References
respiratory infection, respiratory tract infection - any infection of the respiratory tract was characterized. Although the specimen exhibited enterovirus-like cytopathic effect by inoculation into HEF HEF Home Education Foundation HEF High-Energy Fuel HEF High Elf (Everquest) HEF High Efficiency Filter HEF Hispana Esperanto-Asocio HEF Hazardous Equipment or Facilities HEF Heredes Eius Fecerunt and GMK GMK Grand Master Key (locksmithing) GMK Gnu Make File cells when cell culture system for virus isolation was used (2), extracted RNA from the supernatant of the cells showed no amplification by reverse transcription--PCR (RT-PCR RT-PCR reverse transcriptase-polymerase chain reaction. See PCR1. ) when 1 of the conventional primer sets for human enteroviruses Enteroviruses Viruses which live in the gastrointestinal tract. Coxsackie viruses, viruses that cause hand-foot-mouth disease, are an enterovirus. Mentioned in: Hand-Foot-and-Mouth Disease was used (3,4). In the cell culture supernatant analysis by the RDV method, the specimen exhibited amplification of the partial nucleotide sequences of coxsackie A14 virus (nucleotide sequence data are available in the DDBJ/EMBL/GenBank databases under accession nos. AB275848-AB275853). Thus, the RDV method could detect unidentified cytopathic-effect agents such as enterovirus enterovirus /en·tero·vi·rus/ (en´ter-o-vi?rus) any virus of the genus Enterovirus. enterovi´ral Enterovirus /En·tero·vi·rus/ (en´ter-o-vi?rus that could not be detected by RT-PCR when the conventional primer set for enteroviruses was used. Conclusions The RDV method is a rapid method for the direct determination of viral RNA sequences without using the eDNA cloning procedure. The limitations of the RDV method are the requirement for cell culture isolate and the large number of steps. However, RDV would be useful for species-independent detection of RNA viruses including unknown or untypeable emerging RNA viruses. Furthermore, with minor modifications, this method would also be applicable to the detection of DNA viruses and bacteria. Acknowledgments We thank F. Taguchi and R. Watanabe for helpful discussions and M. Ogata for assistance. This work was supported in part by the Japan Society for Promotion of Science, Tokyo, Japan. References (1.) Endoh D, Mizutani T, Kirisawa R, Maki Y, Saito H, Kon Y, et al. Species-independent detection of RNA virus by representational difference analysis using non-ribosomal hexanucleotides for reverse transcription. Nucleic Acids Res. 2005;33:e65. (2.) Numazaki Y, Oahima T, Ohmi A, Tanaka A, Oizumi Y, Komatsu S, et al. A microplate method for isolation of viruses from infants and children with acute respiratory infections. Microbiol Immunol. 1987;31 : 1085-95. (3.) Olive DM, AL-Mufti S, Al-Mulla W, Khan MA, Pasca A, Stanway G, et al. Detection and differentiation of picornaviruses in clinical samples following genomic amplification. J Gen Virol. 1990;71:2141 7. (4.) Ishiko H, Shimada Y, Yonaha M, Hashimoto O, Hayashi A, Sakae K, et al. Molecular diagnosis of human enteroviruses by phylogeny-based classification by use of the VP4 sequence. J Infect Dis. 2002; 185:744-54. Address for correspondence: Tetsuya Mizutani, Department of Virology 1, National Institute of Infectious Diseases, Gakuen 4-7-1, Musashimurayama City, Tokyo 208-0011, Japan; email: tmizutan@nih.go.jp Tetsuya Mizutani,* Daiji Endoh, ([dagger]) Michiko Okamoto, ([double dagger] Kazuya Shirato,* Hiroyuki Shimizu,* Minetaro Arita,* Shuetsu Fukushi,* Masayuki Saijo,* Kouji, Sakai,* Chang Kweng Lim,* Mikako Ito,* Reiko Nerome,* Tomohiko Takasaki,* Koji Ishii,* Tetsuro Suzuki,* Ichiro Kurane,* Shigeru Morikawa,* and Hidekazu Nishimura([double dagger]) * National Institute of Infectious Diseases, Tokyo, Japan; ([dagger])Rakuno Gakuen University, Ebetsu, Japan; and : ([double dagger])Sendai Medical Center, Sendai, Japan Dr Mizutani is a senior researcher at the National Institute of Infectious Diseases, Tokyo, Japan. His current research focus is infectious disease surveillance by using new technologies. |
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