RNA polymerization actuating nucleic acid membrane (RANAM)-based biosensing for universal RNA virus detection

Heterobasidion RNA virus 6 (HetRV6) is a double-stranded (ds)RNA mycovirus and a member of the recently established genus Orthocurvulavirus within the family Orthocurvulaviridae. The purpose of the study was to determine the biochemical requirements for RNA synthesis catalyzed by HetRV6 RNA-dependent RNA polymerase (RdRp). HetRV6 RdRp was expressed in Escherichia coli and isolated to near homogeneity using liquid chromatography. The enzyme activities were studied in vitro using radiolabeled UTP. The HetRV6 RdRp was able to initiate RNA synthesis in a primer-independent manner using both virus-related and heterologous single-stranded (ss)RNA templates, with a polymerization rate of about 46 nt/min under optimal NTP concentration and temperature. NTPs with 2′-fluoro modifications were also accepted as substrates in the HetRV6 RdRp-catalyzed RNA polymerization reaction. HetRV6 RdRp transcribed viral RNA genome via semi-conservative mechanism. Furthermore, the enzyme demonstrated terminal nucleotidyl transferase (TNTase) activity. Presence of Mn2+ was required for the HetRV6 RdRp catalyzed enzymatic activities. In summary, our study shows that HetRV6 RdRp is an active replicase in vitro that can be potentially used in biotechnological applications, molecular biology, and biomedicine.

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Constant temperature control system based on RNA virus detection

10.23919/ccc52363.2021.9549522 ◽

2021 ◽

Author(s):

Chunxiao Liu ◽

Xiaobo Li ◽

Haoming Chen ◽

Yun Yan ◽

Dong Wei ◽

...

Keyword(s):

Control System ◽

Constant Temperature ◽

Temperature Control ◽

Rna Virus ◽

Virus Detection ◽

Temperature Control System

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Clinical evaluation of ID NOW influenza A & B 2, a rapid influenza virus detection kit using isothermal nucleic acid amplification technology - A comparison with currently available tests

Journal of Infection and Chemotherapy ◽

10.1016/j.jiac.2019.08.015 ◽

2020 ◽

Vol 26 (2) ◽

pp. 216-221 ◽

Cited By ~ 2

Author(s):

Keiko Mitamura ◽

Hideaki Shimizu ◽

Masahiko Yamazaki ◽

Masataka Ichikawa ◽

Takashi Abe ◽

...

Keyword(s):

Influenza Virus ◽

Nucleic Acid ◽

Clinical Evaluation ◽

Influenza A ◽

Virus Detection ◽

Nucleic Acid Amplification ◽

Isothermal Nucleic Acid Amplification ◽

Nucleic Acid Amplification Technology ◽

Influenza Virus Detection

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Inhibitors acting on Nucleic Acid Synthesis in an Oncogenic RNA Virus

Nature New Biology ◽

10.1038/newbio232143a0 ◽

1971 ◽

Vol 232 (31) ◽

pp. 143-145 ◽

Cited By ~ 54

Author(s):

WERNER E. G. MÜLLER ◽

RUDOLF K. ZAHN ◽

HANS J. SEIDEL

Keyword(s):

Nucleic Acid ◽

Rna Virus ◽

Acid Synthesis ◽

Nucleic Acid Synthesis

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Innovation and discovery: The application of nucleic acid-based technology to avian virus detection and characterization

Avian Pathology ◽

10.1080/03079450120092071 ◽

2001 ◽

Vol 30 (6) ◽

pp. 581-598 ◽

Cited By ~ 17

Author(s):

Dave Cavanagh

Keyword(s):

Nucleic Acid ◽

Virus Detection ◽

Avian Virus

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Evaluation of Three Automated Nucleic Acid Extraction Systems for Identification of Respiratory Viruses in Clinical Specimens by Multiplex Real-Time PCR

BioMed Research International ◽

10.1155/2014/430650 ◽

2014 ◽

Vol 2014 ◽

pp. 1-8 ◽

Cited By ~ 2

Author(s):

Yoonjung Kim ◽

Mi-Soon Han ◽

Juwon Kim ◽

Aerin Kwon ◽

Kyung-A Lee

Keyword(s):

Nucleic Acid ◽

Nucleic Acids ◽

False Negative ◽

Virus Detection ◽

Turnaround Time ◽

Nasopharyngeal Swab ◽

Acid Extraction ◽

Analytical Sensitivity ◽

Nucleic Acid Extraction ◽

Negative Results

A total of 84 nasopharyngeal swab specimens were collected from 84 patients. Viral nucleic acid was extracted by three automated extraction systems: QIAcube (Qiagen, Germany), EZ1 Advanced XL (Qiagen), and MICROLAB Nimbus IVD (Hamilton, USA). Fourteen RNA viruses and two DNA viruses were detected using the Anyplex II RV16 Detection kit (Seegene, Republic of Korea). The EZ1 Advanced XL system demonstrated the best analytical sensitivity for all the three viral strains. The nucleic acids extracted by EZ1 Advanced XL showed higher positive rates for virus detection than the others. Meanwhile, the MICROLAB Nimbus IVD system was comprised of fully automated steps from nucleic extraction to PCR setup function that could reduce human errors. For the nucleic acids recovered from nasopharyngeal swab specimens, the QIAcube system showed the fewest false negative results and the best concordance rate, and it may be more suitable for detecting various viruses including RNA and DNA virus strains. Each system showed different sensitivity and specificity for detection of certain viral pathogens and demonstrated different characteristics such as turnaround time and sample capacity. Therefore, these factors should be considered when new nucleic acid extraction systems are introduced to the laboratory.

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Homology Test between the Nucleic Acid of an RNA Virus and the DNA in the Host Cell

Science ◽

10.1126/science.138.3546.1270 ◽

1962 ◽

Vol 138 (3546) ◽

pp. 1270-1272 ◽

Cited By ~ 38

Author(s):

R. H. Doi ◽

S. Spiegelman

Keyword(s):

Nucleic Acid ◽

Host Cell ◽

Rna Virus

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A fully-integrated microfluidic chip for RNA-virus detection

The 13th International Conference on Solid-State Sensors, Actuators and Microsystems, 2005. Digest of Technical Papers. TRANSDUCERS '05. ◽

10.1109/sensor.2005.1497399 ◽

2005 ◽

Author(s):

Fu-Chun Huang ◽

Chia-Sheng Liao ◽

Gwo-Bin Lee

Keyword(s):

Microfluidic Chip ◽

Rna Virus ◽

Virus Detection ◽

Fully Integrated

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Polyamines and Their Role in Virus Infection

Microbiology and Molecular Biology Reviews ◽

10.1128/mmbr.00029-17 ◽

2017 ◽

Vol 81 (4) ◽

Cited By ~ 30

Author(s):

Bryan C. Mounce ◽

Michelle E. Olsen ◽

Marco Vignuzzi ◽

John H. Connor

Keyword(s):

Protein Synthesis ◽

Nucleic Acid ◽

Mammalian Cells ◽

Cellular Proliferation ◽

Polyamine Synthesis ◽

Host Interactions ◽

Dna And Rna ◽

Rna Polymerization ◽

Nucleic Acid Conformation

SUMMARY Polyamines are small, abundant, aliphatic molecules present in all mammalian cells. Within the context of the cell, they play a myriad of roles, from modulating nucleic acid conformation to promoting cellular proliferation and signaling. In addition, polyamines have emerged as important molecules in virus-host interactions. Many viruses have been shown to require polyamines for one or more aspects of their replication cycle, including DNA and RNA polymerization, nucleic acid packaging, and protein synthesis. Understanding the role of polyamines has become easier with the application of small-molecule inhibitors of polyamine synthesis and the use of interferon-induced regulators of polyamines. Here we review the diverse mechanisms in which viruses require polyamines and investigate blocking polyamine synthesis as a potential broad-spectrum antiviral approach.

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