The gag-pol precursor protein of the avian sarcoma-leukosis virus is processed into three known pol-encoded mature polypeptides; the 95-and 63-kilodalton (kDa) and a subunits, respectively, of reverse transcriptase and the 32-kDa pp32 protein. The pp32 protein possesses DNA endonuclease activity and is produced from the precursor by two proteolytic cleavage events, one of which removes 4.1 kDa of protein from the C terminus. A 36-kDa protein (p36P°') which retains this C-terminal segment is detectable in small quantities in virions. We have constructed Escherichia coli plasmid clones that express the C-terminal domains of pol corresponding to pp32 and p36. These proteins have been purified by column chromatographic methods to near homogeneity. No significant differences could be detected in the enzymatic properties of the bacterially produced p32P"' and p36&"" proteins. Both possess DNA endonuclease activity and, like the pp32 protein isolated from virions, can cleave near the junction of two tandem avian sarcoma-leukosis virus long terminal repeats in double-stranded supercoiled DNA substrates. In the presence of Mg2+, both p32P"' and viral pp32 cleave either strand of DNA 2 nucleotides 5' to the junction.
Three pol gene products have been identified in avian retroviral particles: the full-length 95-kilodalton (kDa) 0i chain of reverse transcriptase and two proteolytic cleavage products of jS, a 63-kDa reverse transcriptase a chain derived from the amino terminus of j1 and a 32-kDa (pp32) endonuclease from its carboxy terminus. By using molecularly cloned retroviral DNA and synthetic oligonucleotides to introduce initiator ATGs and codons corresponding to the authentic N termini, we constructed two bacterial-expression clones; one clone contains the entire pol gene, and the other contains the region encoding the pp32 domain. A 99-kDa protein was synthesized in Escherichia coli by the full-length clone, and a 36-kDa protein was synthesized by the endonuclease domain clone. The recombinant proteins exceeded the size of both the mature viral I8 chain and the pp32, respectively, by approximately 4 kDa. These larger sizes, however, are consistent with predictions from the DNA sequence of the pol gene. Processing of the recombinant pol proteins was examined by using p15 protease purified from virus particles and antisera directed against synthetic peptides corresponding to three domains in pol. Proteolytic digestion of the 99-kDa product with p15 produced a 63-kDa protein that comigrated on polyacrylamide gels with the a chain of reverse transcriptase and a 36-kDa fragment that comigrated with the endonuclease domain product. Further digestion of the 36-kDa protein yielded a 32-kDa protein that comigrated with viral pp32 endonuclease. Thus, we concluded that two p15-sensitive sites exist in pol. Cleavage at the previously identified site produces a, and cleavage at the newly discovered site removes approximately 4 kDa from the C terminus of the primary protein product. Since the 36-kDa protein was also detected in protein isolated from virus particles, it seems probable that processing at the C-terminal site is a normal step in the production of mature , and pp32 endonuclease products.
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