TY - JOUR
T1 - Pausing during reverse transcription increases the rate of retroviral recombination
AU - Lanciault, Christian
AU - Champoux, James J.
PY - 2006/3
Y1 - 2006/3
N2 - Retroviruses package two copies of genomic RNA into viral particles. During the minus-sense DNA synthesis step of reverse transcription, the nascent DNA can transfer multiple times between the two copies of the genome, resulting in recombination. The mechanism for this process is similar to the process of obligate strand transfers mediated by the repeat and primer binding site sequences. The location at which the DNA 3′ terminus completely transfers to the second RNA strand defines the point of crossover. Previous work in vitro demonstrated that reverse transcriptase pausing has a significant impact on the location of the crossover, with a proportion of complete transfer events occurring very close to pause sites. The role of pausing in vivo, however, is not clearly understood. By employing a murine leukemia virus-based single-cycle infection assay, strong pausing was shown to increase the probability of recombination, as reflected in the reconstitution of green fluorescent protein expression. The infection assay results were directly correlated with the presence of strong pause sites in reverse transcriptase primer extension assays in vitro. Conversely, when pausing was diminished in vitro, without changing the sequence of the RNA template involved in recombination, there was a significant reduction in recombination in vivo. Together, these data demonstrate that reverse transcriptase pausing, as observed in vitro, directly correlates with recombination during minus-sense DNA synthesis in vivo.
AB - Retroviruses package two copies of genomic RNA into viral particles. During the minus-sense DNA synthesis step of reverse transcription, the nascent DNA can transfer multiple times between the two copies of the genome, resulting in recombination. The mechanism for this process is similar to the process of obligate strand transfers mediated by the repeat and primer binding site sequences. The location at which the DNA 3′ terminus completely transfers to the second RNA strand defines the point of crossover. Previous work in vitro demonstrated that reverse transcriptase pausing has a significant impact on the location of the crossover, with a proportion of complete transfer events occurring very close to pause sites. The role of pausing in vivo, however, is not clearly understood. By employing a murine leukemia virus-based single-cycle infection assay, strong pausing was shown to increase the probability of recombination, as reflected in the reconstitution of green fluorescent protein expression. The infection assay results were directly correlated with the presence of strong pause sites in reverse transcriptase primer extension assays in vitro. Conversely, when pausing was diminished in vitro, without changing the sequence of the RNA template involved in recombination, there was a significant reduction in recombination in vivo. Together, these data demonstrate that reverse transcriptase pausing, as observed in vitro, directly correlates with recombination during minus-sense DNA synthesis in vivo.
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U2 - 10.1128/JVI.80.5.2483-2494.2006
DO - 10.1128/JVI.80.5.2483-2494.2006
M3 - Article
C2 - 16474155
AN - SCOPUS:33144467988
SN - 0022-538X
VL - 80
SP - 2483
EP - 2494
JO - Journal of virology
JF - Journal of virology
IS - 5
ER -