Retroviral DNA integrated during infection by an integration-deficient mutant of murine leukemia virus is oligomeric.
Academic Article
Overview
abstract
Mutants with lesions engineered into the 3' region of the pol gene of murine leukemia virus (MLV), the region that encodes p40pol, have allowed us to define a function that is required for the normal integration of retroviral DNA. Two such mutants, MLV-SF1, which bears a single missense mutation (L. A. Donehower and H. E. Varmus, Proc. Natl. Acad. Sci. USA 81:6461-6465, 1984), and MLV-SF2, which has a frameshift mutation at the same site, have been used to explore the consequences of integration deficiencies. Pseudotypes that were formed with viral proteins supplied by these mutants and a replication-defective genome that carried a selectable genetic marker induced colony formation at least 100-fold less efficiently than did pseudotypes that were formed with proteins encoded by wild-type helper virus. Most of the proviruses from the mutant pseudotypes were manifestly aberrant when they were analyzed by mapping with restriction enzymes. Rare proviruses that appeared to be normal by restriction enzyme mapping were molecularly cloned and subjected to more detailed study. Two proviruses resulting from infection with the MLV-SF1 pseudotype were identical or nearly identical to wild-type MI V proviruses. Two base pairs were missing from the ends of the long terminal repeats at the host-viral junctions, and 4- or 5-base-pair duplications of host DNA flanked the proviruses. Thus, the missense mutant appears to retain a low level of normal integration activity. Four proviruses from cells that were infected with the MLV-SF2 pseudotype were flanked on both sides by viral DNA of either helper or vector origin, with a single long terminal repeat at each end of the intact vector DNA and with irregular junctions of viral and host DNAs. These results are most simply explained by the nonspecific integration of dimeric or trimeric forms of viral DNA, which may arise during infection by replicative or recombinational mechanisms.
