Results 301 to 310 of about 2,788,248 (339)
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Relationship between viral RNA and viral protein synthesis
Virology, 1962Abstract Low concentrations of p-fluorophenylalanine (5–10 μg/ml) inhibit the maturation of Western equine encephalomyelitis and poliomyelitis viruses. Much higher concentrations are required (125 μg/ml) to inhibit the synthesis of the respective infectious RNA. By means of fluorescent antibodies against poliovirus, it was found that the formation of
E, WECKER, K, HUMMELER, O, GOETZ
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Evidence for uncoupled synthesis of viral RNA and viral capsids
Virology, 1964Abstract Despite the arrest of synthesis of complete virus particles by 2-(α-hydroxybenzyl)-benzimidazole (HBB) in ECHO 12 virus-infected cells, there occurs a continued but limited synthesis of empty capsids. Infected cells treated in sequence with p -fluorophenylalanine (FPA) and then HBB produce empty capsids the quantity of which is dependent on
S, HALPEREN, H J, EGGERS, I, TAMM
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1969
Publisher Summary The pace of research on RNA virus replication and the huge amount of related literature that has accumulated in the past 6 years attest to the wide interest in the topic. There has also been some controversy and apparent confusion, probably largely because of pressure for publication priority. In this chapter, methods for detecting,
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Publisher Summary The pace of research on RNA virus replication and the huge amount of related literature that has accumulated in the past 6 years attest to the wide interest in the topic. There has also been some controversy and apparent confusion, probably largely because of pressure for publication priority. In this chapter, methods for detecting,
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Electron Microscopy of Viral RNA
1981The electron microscopy of nucleic acid molecules has become a routine tool in the analysis of genome structure and function. This is primarily due to the availability of simple reliable methods for the visualization of single- and double-stranded DNA and RNA molecules, of RNA-DNA hybrids, and of nucleic acid-protein complexes.
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Interaction of formate esters with viral RNA and viral polymerase
Biochimica et Biophysica Acta (BBA) - Nucleic Acids and Protein Synthesis, 1971Abstract Esters of chloroformic acid inactivate the infectivity of single-stranded poliovirus RNA, but not that of the double-stranded replicative form. Diethyl pyrocarbonate, a similar structure does not inactivate the infectivity of the replicative form nor that of the replicative intermediate.
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1985
In the cytoplasm of an uninfected mammalian host cell, so far no enzymes have been detected that synthesize RNA on an RNA template. The incoming poliovirus contains a plus strand RNA but does not carry an RNA-replicase. Formation of replicase(s) is a prerequisite for the synthesis of viral progeny RNA.
Friedrich Koch, Gebhard Koch
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In the cytoplasm of an uninfected mammalian host cell, so far no enzymes have been detected that synthesize RNA on an RNA template. The incoming poliovirus contains a plus strand RNA but does not carry an RNA-replicase. Formation of replicase(s) is a prerequisite for the synthesis of viral progeny RNA.
Friedrich Koch, Gebhard Koch
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RNA Biology in Viral Infection
Seminars in Cell & Developmental Biology, 2021openaire +2 more sources
Science, 2007
Human cytomegalovirus expresses noncoding RNAs that repress host immune responses during infection.
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Human cytomegalovirus expresses noncoding RNAs that repress host immune responses during infection.
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2014
This chapter summarizes what is known about how a single viral RNA molecule can be selectively amplified into thousands of RNA progeny in infected cells. It specifically provides the roles of viral proteins and RNA sequences in RNA replication, and describes the kinetics and products of RNA replication in infected cells. Next, it explains the sites and
Kyle L. Johnson, Peter Sarnow
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This chapter summarizes what is known about how a single viral RNA molecule can be selectively amplified into thousands of RNA progeny in infected cells. It specifically provides the roles of viral proteins and RNA sequences in RNA replication, and describes the kinetics and products of RNA replication in infected cells. Next, it explains the sites and
Kyle L. Johnson, Peter Sarnow
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A REVIEW ON RNA VIRAL DISEASES OF FISH
, 2020M. Dhayanath, Abisha Juliet Mary.S.J
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