The gag and pol genes of bovine leukemia virus: Nucleotide sequence and analysis

The DNA sequence of the gag and pol regions of a provirus cloned from a bovine tumor is presented. In order to confirm these results the sequence of portions of a second clone, derived from a virus-producing cell line, was also determined. The gag gene was found to consist of 1179 nucleotides, which probably encode only three proteins: an N-terminal protein of 109 amino acids, a major core protein (p24) of 215 amino acids, and a nucleic acid binding protein (p12) of 69 residues. An open reading frame, whose translated product showed clear homology to the avian and murine proteases, was found beginning immediately upstream of the 3′ end of gag. Following this protease region, a third long open reading frame, encoding 852 amino acids, showed clear homology to both avian and murine pol genes. The mechanism of translation of the protease and pol gene products cannot be predicted with certainty. Like Moloney murine leukemia virus (M-MuLV), BLV has a termination signal at the 3′ end of gag, but unlike M-MuLV the protease is in a different reading frame. Like Rous sarcoma virus (RSV), BLV has a termination signal at the 3′ end of the protease region and the reverse transcriptase is in a different (i.e. the third) reading frame. Possible translation mechanisms are discussed. Finally, the BLV gag and pol gene products are highly related to those of the human T-cell leukemia virus (HTLV); relatedness varied from 37% amino acid identities within the N terminal gag protein to 54% within the nucleic acid binding protein. Highly significant homology with both murine and avian type-C proteins was found within p24, p12, and the putative protease, reverse transcriptase, and endonuclease. Based on this homology, the BLV-HTLV family of viruses appears about equally distantly related to murine and avian type-C viruses. © 1985.SCOPUS: ar.jinfo:eu-repo/semantics/publishe

The nucleotide sequence of the env gene and post-env region of bovine leukemia virus

The env gene of a bovine leukemia virus (BLV) tumor-derived proviral DNA clone has been located by comparison of the translated DNA sequence with amino acid sequence data on purified gp60 and p30env (A. M. Schultz, T. D. Copeland, and S. Oroszlan (1984)Virology135, 417-427). There is a continuous open reading frame from the N terminus of gp60 for 1446 nucleotides; gp60 is predicted to contain 268 amino acids and p30env 214. The predicted p30env shows structural features typical of type C viral transmembrane proteins. It is also clearly related to that of the human T-cell leukemia virus (HTLV), as predicted from the DNA sequence of Seiki et al. (M. Seiki, S. Hattori, Y. Hirayama, and M. Yoshida (1983) Proc. Natl. Acad. Sci. USA80, 3618-3622) The two proteins show 36% identities in their amino acid sequence, in an alignment requiring six gaps. More distant relatedness is also seen between BLV p30env and both murine leukemia virus p15E and Rous sarcoma virus gp36. The gp60s of BLV and HTLV are more distantly related than their p30envs, but their homology is nonetheless statistically significant. Between the presumptive terminator of the env gene and the beginning of the 3′-long terminal repeat is a region of 1817 base pairs of unknown function. Just as in the HTLV post-envelope sequence, there are at least two reading frames which are open for a significant fraction of this region. In neither the tumor-derived clone nor a clone from a virus-producing cell line, however, is there a continuous open reading frame throughout the region. Comparison of the BLV and HTLV sequences within the post-envelope region revealed a very limited but possibly significant similarity. © 1984.SCOPUS: ar.jinfo:eu-repo/semantics/publishe