Usefulness of the rapid determination system of viral genome sequences in human stool specimens
► The rapid determination system of viral genome sequences (RDV) was applied for the detection of viral genomes in human stools. ► The effect of nuclease treatment of the RDV method was examined. ► The RDV method has potential for the detection of viral genomes in stool specimens. ► The procedure wi...
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| Published in | Journal of virological methods Vol. 179; no. 1; pp. 256 - 260 |
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| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
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Elsevier B.V
2012
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| Abstract | ► The rapid determination system of viral genome sequences (RDV) was applied for the detection of viral genomes in human stools. ► The effect of nuclease treatment of the RDV method was examined. ► The RDV method has potential for the detection of viral genomes in stool specimens. ► The procedure without a step of nuclease treatment appears to be sensitive.
The rapid determination system of viral genome sequences (the RDV method) consists of detecting and determining the nucleotide sequences of viral genomes without using specific primers. To evaluate the usefulness of the RDV method, the detection of human norovirus (NV) genomes in stool specimens was investigated. In addition, the effect of nuclease treatment of the process was examined. A total of 23 human stool specimens were used, all of which were collected from patients with acute viral gastroenteritis, and were shown to contain NV genomes and also determined the cDNA copy numbers by the real-time reverse transcriptase-polymerase chain reaction. NV genomes were detected by the RDV method with nuclease treatment in nine specimens containing cDNA copies ranging between 6.2
×
10
9 and 9.8
×
10
11/g stool. In contrast, NV genome was found by the method in 15 specimens without nuclease treatment and the number of NV cDNA copies ranged between 1.2
×
10
6 and 9.8
×
10
11/g stool. These results suggest that the RDV method has potential for detecting viral genomes in stool specimens. The procedure without a step of nuclease treatment appears to be sensitive. |
|---|---|
| AbstractList | ► The rapid determination system of viral genome sequences (RDV) was applied for the detection of viral genomes in human stools. ► The effect of nuclease treatment of the RDV method was examined. ► The RDV method has potential for the detection of viral genomes in stool specimens. ► The procedure without a step of nuclease treatment appears to be sensitive.
The rapid determination system of viral genome sequences (the RDV method) consists of detecting and determining the nucleotide sequences of viral genomes without using specific primers. To evaluate the usefulness of the RDV method, the detection of human norovirus (NV) genomes in stool specimens was investigated. In addition, the effect of nuclease treatment of the process was examined. A total of 23 human stool specimens were used, all of which were collected from patients with acute viral gastroenteritis, and were shown to contain NV genomes and also determined the cDNA copy numbers by the real-time reverse transcriptase-polymerase chain reaction. NV genomes were detected by the RDV method with nuclease treatment in nine specimens containing cDNA copies ranging between 6.2
×
10
9 and 9.8
×
10
11/g stool. In contrast, NV genome was found by the method in 15 specimens without nuclease treatment and the number of NV cDNA copies ranged between 1.2
×
10
6 and 9.8
×
10
11/g stool. These results suggest that the RDV method has potential for detecting viral genomes in stool specimens. The procedure without a step of nuclease treatment appears to be sensitive. The rapid determination system of viral genome sequences (the RDV method) consists of detecting and determining the nucleotide sequences of viral genomes without using specific primers. To evaluate the usefulness of the RDV method, the detection of human norovirus (NV) genomes in stool specimens was investigated. In addition, the effect of nuclease treatment of the process was examined. A total of 23 human stool specimens were used, all of which were collected from patients with acute viral gastroenteritis, and were shown to contain NV genomes and also determined the cDNA copy numbers by the real-time reverse transcriptase-polymerase chain reaction. NV genomes were detected by the RDV method with nuclease treatment in nine specimens containing cDNA copies ranging between 6.2×10⁹ and 9.8×10¹¹/g stool. In contrast, NV genome was found by the method in 15 specimens without nuclease treatment and the number of NV cDNA copies ranged between 1.2×10⁶ and 9.8×10¹¹/g stool. These results suggest that the RDV method has potential for detecting viral genomes in stool specimens. The procedure without a step of nuclease treatment appears to be sensitive. The rapid determination system of viral genome sequences (the RDV method) consists of detecting and determining the nucleotide sequences of viral genomes without using specific primers. To evaluate the usefulness of the RDV method, the detection of human norovirus (NV) genomes in stool specimens was investigated. In addition, the effect of nuclease treatment of the process was examined. A total of 23 human stool specimens were used, all of which were collected from patients with acute viral gastroenteritis, and were shown to contain NV genomes and also determined the cDNA copy numbers by the real-time reverse transcriptase-polymerase chain reaction. NV genomes were detected by the RDV method with nuclease treatment in nine specimens containing cDNA copies ranging between 6.2109 and 9.81011/g stool. In contrast, NV genome was found by the method in 15 specimens without nuclease treatment and the number of NV cDNA copies ranged between 1.2106 and 9.81011/g stool. These results suggest that the RDV method has potential for detecting viral genomes in stool specimens. The procedure without a step of nuclease treatment appears to be sensitive. The rapid determination system of viral genome sequences (the RDV method) consists of detecting and determining the nucleotide sequences of viral genomes without using specific primers. To evaluate the usefulness of the RDV method, the detection of human norovirus (NV) genomes in stool specimens was investigated. In addition, the effect of nuclease treatment of the process was examined. A total of 23 human stool specimens were used, all of which were collected from patients with acute viral gastroenteritis, and were shown to contain NV genomes and also determined the cDNA copy numbers by the real-time reverse transcriptase-polymerase chain reaction. NV genomes were detected by the RDV method with nuclease treatment in nine specimens containing cDNA copies ranging between 6.2×10(9) and 9.8×10(11)/g stool. In contrast, NV genome was found by the method in 15 specimens without nuclease treatment and the number of NV cDNA copies ranged between 1.2×10(6) and 9.8×10(11)/g stool. These results suggest that the RDV method has potential for detecting viral genomes in stool specimens. The procedure without a step of nuclease treatment appears to be sensitive.The rapid determination system of viral genome sequences (the RDV method) consists of detecting and determining the nucleotide sequences of viral genomes without using specific primers. To evaluate the usefulness of the RDV method, the detection of human norovirus (NV) genomes in stool specimens was investigated. In addition, the effect of nuclease treatment of the process was examined. A total of 23 human stool specimens were used, all of which were collected from patients with acute viral gastroenteritis, and were shown to contain NV genomes and also determined the cDNA copy numbers by the real-time reverse transcriptase-polymerase chain reaction. NV genomes were detected by the RDV method with nuclease treatment in nine specimens containing cDNA copies ranging between 6.2×10(9) and 9.8×10(11)/g stool. In contrast, NV genome was found by the method in 15 specimens without nuclease treatment and the number of NV cDNA copies ranged between 1.2×10(6) and 9.8×10(11)/g stool. These results suggest that the RDV method has potential for detecting viral genomes in stool specimens. The procedure without a step of nuclease treatment appears to be sensitive. The rapid determination system of viral genome sequences (the RDV method) consists of detecting and determining the nucleotide sequences of viral genomes without using specific primers. To evaluate the usefulness of the RDV method, the detection of human norovirus (NV) genomes in stool specimens was investigated. In addition, the effect of nuclease treatment of the process was examined. A total of 23 human stool specimens were used, all of which were collected from patients with acute viral gastroenteritis, and were shown to contain NV genomes and also determined the cDNA copy numbers by the real-time reverse transcriptase-polymerase chain reaction. NV genomes were detected by the RDV method with nuclease treatment in nine specimens containing cDNA copies ranging between 6.2×10(9) and 9.8×10(11)/g stool. In contrast, NV genome was found by the method in 15 specimens without nuclease treatment and the number of NV cDNA copies ranged between 1.2×10(6) and 9.8×10(11)/g stool. These results suggest that the RDV method has potential for detecting viral genomes in stool specimens. The procedure without a step of nuclease treatment appears to be sensitive. |
| Author | Yoshizumi, Shima Nagano, Hideki Kudo, Shinichi Ishida, Setsuko Komagome, Rika Okano, Motohiko Miyoshi, Masahiro |
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| Cites_doi | 10.1093/infdis/170.2.439 10.1128/AEM.70.8.4538-4543.2004 10.1016/j.jviromet.2007.07.008 10.1146/annurev.micro.51.1.151 10.1128/JCM.41.4.1548-1557.2003 10.1007/s00705-007-0999-9 10.1128/JCM.42.7.2988-2995.2004 10.1128/JVI.02301-08 10.7883/yoken.63.75 10.1007/s10096-006-0250-8 10.3201/eid1302.061032 |
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| Keywords | Rapid determination Norovirus Stool specimen Detection of viral genome Virus Human Nucleotide sequence Caliciviridae Feces Method Detection Genome |
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| SubjectTerms | Biological and medical sciences Caliciviridae Infections - diagnosis Caliciviridae Infections - virology complementary DNA Detection of viral genome feces Feces - virology Fundamental and applied biological sciences. Psychology gastroenteritis Gastroenteritis - virology genome Genome, Viral Humans Microbiology Molecular Sequence Data Norovirus Norovirus - genetics Norovirus - isolation & purification nucleotide sequences patients Rapid determination reverse transcriptase polymerase chain reaction RNA, Viral - genetics Sequence Analysis, DNA - methods Stool specimen Techniques used in virology Viral Load Virology |
| Title | Usefulness of the rapid determination system of viral genome sequences in human stool specimens |
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