Author: Yun, Sang-Im; Song, Byung-Hak; Kim, Jin-Kyoung; Lee, Young-Min
Title: Bacterial Artificial Chromosomes: A Functional Genomics Tool for the Study of Positive-strand RNA Viruses Document date: 2015_12_29
ID: 2se4d1yp_12_0
Snippet: The current protocol has been successfully used to generate full-length infectious cDNA clones for two different strains (CNU/LP2 27 and SA 14 -14-2 28 ) of JEV, a flavivirus whose functional cDNA has proved to be inherently difficult to construct and propagate because of host cell toxicity and the genetic instability of the cloned cDNA. 8, [74] [75] [76] This protocol involves three major components: first, maximizing the synthesis/ amplificatio.....
Document: The current protocol has been successfully used to generate full-length infectious cDNA clones for two different strains (CNU/LP2 27 and SA 14 -14-2 28 ) of JEV, a flavivirus whose functional cDNA has proved to be inherently difficult to construct and propagate because of host cell toxicity and the genetic instability of the cloned cDNA. 8, [74] [75] [76] This protocol involves three major components: first, maximizing the synthesis/ amplification of a faithful cDNA copy of the viral RNA using high-fidelity reverse transcriptase/DNA polymerase; second, cloning the viral prM-E coding region containing toxic sequences (unpublished data) 74, 77, 78 in a very low-copy number vector BAC from the initial cDNA subcloning to the final full-length cDNA assembly steps; and third, utilizing a cloning vector BAC that can accommodate a foreign DNA with an average size of 120-350 kb, [19] [20] [21] which apparently tolerates larger DNA inserts than do other cloning vectors. This cloning approach will be generally applicable to many other positive-strand RNA viruses, particularly those with a large RNA genome of ~10 to 32 kb. Generation of an infectious cDNA clone is a key step in developing a reverse genetics system for RNA viruses, especially for positive-strand RNA viruses, because its genome acts as viral mRNA that is translated into proteins by host cell ribosomes. Thus, viral replication can be initiated by the introduction of a cDNA-derived genome-length RNA molecule into a susceptible host cell. The availability of an infectious JEV cDNA clone, when combined with recombinant DNA technology, has increased our understanding of various aspects of the viral life cycle at the molecular level, such as gene expression 73, 79 and genome replication. 63, 64 Also, a full-length JEV cDNA clone has proven to be a valuable tool for the development of antiviral vaccines 28 and gene delivery vectors. 80, 81 As with all positive-strand RNA viruses, there are multiple critical steps in constructing a reliable functional cDNA for JEV from which highly infectious RNAs can be synthesized in vitro. Ideally, the sequence of the synthetic RNAs transcribed from a clone of the full-length cDNA should be identical to that of the viral genomic RNA, particularly the 5'-and 3'-terminal sequences that are required for the initiation of viral RNA replication. [60] [61] [62] In the current protocol, the authentic 5'-and 3'-ends were ensured by placing the SP6 promoter sequence upstream of the first adenine nucleotide of the viral genome and positioning a unique artificial Xba I restriction site downstream of the last thymine nucleotide of the viral genome, respectively. Capped synthetic RNAs with the authentic 5' and 3' ends were produced by run-off transcription of an Xba I-linearized and MBN-treated cDNA template using SP6 RNA polymerase primed with the m 7 G(5')ppp(5')A cap analog. This protocol can be modified in several ways. For in vitro transcription, another bacteriophage RNA polymerase (e.g., T3 or T7) can be used in conjunction with its well-defined promoter sequence. 27 As a run-off site, a different restriction site can be utilized if it is not present in the viral genome and if synthetic RNA from the linearized cDNA ends with the authentic 3' end. The importance of the 3'-end nucleotide sequence has been demonstrated by a ~10-fold decrease in RNA infectivity when a synthetic RNA contains three or four virus-unrelated nucleotides at its 3' end. 27 In an in vitro
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