Trainor C D, Wong-Staal F, Reitz M S
J Virol. 1982 Jan;41(1):298-308. doi: 10.1128/JVI.41.1.298-308.1982.
Extrachromosomal DNA was purified from canine thymus cells acutely infected with different strains of infectious primate type C viruses of the woolly monkey (simian) sarcoma helper virus and gibbon ape leukemia virus group. All DNA preparations contained linear proviral molecules of 9.1 to 9.2 kilobases, at least some of which represent complete infectious proviral DNA. Cells infected with a replication-defective fibroblast-transforming sarcoma virus and its helper, a replication-competent nontransforming helper virus, also contained a 6.6- to 6.7-kilobase DNA. These proviral DNA molecules were digested with different restriction endonucleases, and the resultant fragments were oriented to the viral RNA by a combination of partial digestions, codigestion with more than one endonuclease, digestion of integrated proviral DNA, and hybridization with 3'- and 5'-specific viral probes. The 3'- and 5'-specific probes each hybridized to fragments from both ends of proviral DNA, indicating that, in common with those of other retroviruses, these proviruses contain a large terminal redundancy at both ends, each of which consists of sequences derived from both the 3' and 5' regions of the viral RNA. The proviral sequences are organized 3',5'-unique-3',5'. Four restriction enzymes (KpnI, SmaI, PstI, and SstI) recognized sites within the large terminal redundancies, and these sites were conserved within all the isolates tested. This suggests that both the 3' and 5' ends of the genomic RNA of these viruses are extremely closely related. In contrast, the restriction sites within the unique portion of the provirus were not strongly conserved within this group of viruses, even though they were related along most of their genomes. Whereas the 5' 60 to 70% of the RNA of these viruses was more closely related by liquid hybridization experiments than was the 3' 30 to 40%, restriction sites within this region were not preferentially conserved, suggesting that small sequence differences or point mutations or both exist throughout the entire unique portion of the genome among these viruses.
从急性感染不同毒株的灵长类C型病毒(绒毛猴(猿猴)肉瘤辅助病毒和长臂猿白血病病毒组)的犬胸腺细胞中纯化了染色体外DNA。所有DNA制剂都含有9.1至9.2千碱基的线性前病毒分子,其中至少一些代表完整的感染性前病毒DNA。感染复制缺陷型成纤维细胞转化肉瘤病毒及其辅助病毒(一种具有复制能力的非转化辅助病毒)的细胞也含有6.6至6.7千碱基的DNA。这些前病毒DNA分子用不同的限制性内切酶消化,通过部分消化、用一种以上内切酶共同消化、整合前病毒DNA的消化以及与3'和5'特异性病毒探针杂交的组合,将所得片段与病毒RNA进行定向。3'和5'特异性探针各自与前病毒DNA两端的片段杂交,表明与其他逆转录病毒一样,这些前病毒两端都含有大的末端冗余,每个冗余都由来自病毒RNA 3'和5'区域的序列组成。前病毒序列的组织方式为3',5'-独特-3',5'。四种限制性酶(KpnI、SmaI、PstI和SstI)识别大末端冗余内的位点,并且这些位点在所有测试的分离株中都是保守的。这表明这些病毒基因组RNA的3'和5'末端极其密切相关。相比之下,前病毒独特部分内的限制性位点在这组病毒中并不强烈保守,尽管它们在大部分基因组上是相关的。尽管通过液相杂交实验这些病毒RNA的5'端60%至70%比3'端30%至40%更密切相关,但该区域内的限制性位点并非优先保守,这表明在这些病毒基因组的整个独特部分中存在小的序列差异或点突变或两者都有。
