Discontinuities in the DNA synthesized by an avian retrovirus.

AUTOR(ES)

Taylor, J M

RESUMO

The unintegrated linear DNA synthesized in cells infected by Rous sarcoma virus is a predominantly double-stranded structure in which most of the minus-strand DNA, complementary to the viral RNA genome, is genome sized, whereas the plus-strand DNA is present as subgenomic fragments. We previously reported the application of benzoylated naphthoylated DEAE-cellulose chromatography to demonstrate that of the linear viral DNA species synthesized in quail embryo fibroblasts infected with Rous sarcoma virus greater than 99.5% contain single-stranded regions and these regions are predominantly composed of plus-strand DNA sequences (T. W. Hsu and J. M. Taylor, J. Virol. 44:47-53, 1982). We now present the following additional findings. (i) There were on the average 3.5 single-stranded regions per linear viral DNA, and these single-stranded regions could occur at many locations. (ii) With a probe to the long terminal repeat, we detected, in addition to a heterogeneous size distribution of subgenomic plus-strand DNA species, at least three prominent discrete size classes. Each of these discrete species had its own specific initiation site, but all had the same termination site. Such species were analogous to those reported by Kung et al. (J. Virol. 37: 127-138, 1981). (iii) These discrete size classes of plus-strand DNA were present not only on the major size class of linear DNA but also on a heterogeneous of slower-sedimenting species, which we have called immature linears. Our interpretation is that we have thus detected several additional sites for the initiation of plus-strand DNA. (iv) The 340-base plus-strand strong-stop DNA was only found associated with the immature linears. (v) From a size and hybridization comparison of these discrete size classes of plus-strand DNA with minus-strand DNA species, as synthesized in the endogenous reaction of melittin-disrupted virions, it was found that the putative additional initiation sites for plus-strand DNA synthesis corresponded to many of the pause sites in the synthesis of minus-strand DNA.

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