Davis A R, Nayak D P
J Virol. 1977 Aug;23(2):263-71. doi: 10.1128/JVI.23.2.263-271.1977.
The expression of guinea pig retrovirus (5-bromodeoxyuridine[BUdR]-induced GPV) was studied in guinea pig L(2)C leukemic lymphoblasts by use of molecular hybridization of viral complementary DNA (cDNA) to cellular RNA. It was found that L(2)C leukemic lymphoblasts, leukemic spleen, and BUdR-induced virus-producing cells contain virus-specific RNA: 0.05% (800 to 960 copies per cell), 0.02% (360 copies per cell), and 0.3% (5,120 copies per cell), respectively. Adult normal liver and spleen, on the other hand, contain less than 0.2 copy of viral RNA per cell. Both BUdR-induced cells and L(2)C leukemic lymphoblasts contained 14S, 22S, 35S, and 70S RNA species of total and cytoplasmic virus-specific RNA as determined by sucrose velocity gradient analysis and hybridization of sucrose gradient fractions to cDNA. Virus-specific mRNA was identified in both BUdR-induced cells and L(2)C leukemic lymphoblasts by the criterion that it cosedimented with purified polyribosomes in a sucrose gradient and that it changed to a lower sedimentation value if polyribosomes were disaggregated with EDTA prior to centrifugation. Virus-specific mRNA obtained from either the polyribosome region of purified polyribosomes or the released messenger region of EDTA-disaggregated purified polyribosomes consisted of 14S, 20S, and 35S species in both BUdR-induced cells and L(2)C leukemic lymphoblasts. Hybridization of cDNA to the RNA of L(2)C leukemic lymphoblasts and BUdR-induced cells was essentially complete. Additionally, leukemic lymphoblast RNA could displace 95% of the hybridization of BUdR-induced GPV 70S RNA to guinea pig DNA. The midpoints of thermal denaturation of hybrids formed between GPV cDNA and the RNA of either L(2)C leukemic lymphoblasts or the 70S RNA of BUdR-induced GPV were both 89 degrees C in 2x concentrated 0.15 M NaCl plus 0.015 M sodium citrate. These results show that BUdR-induced GPV genes are essentially completely expressed in L(2)C leukemic lymphoblasts and that virus-specific mRNA is present, although fewer copies of RNA are present in L(2)C leukemic lymphoblasts than in BUdR-induced cells.
通过病毒互补DNA(cDNA)与细胞RNA的分子杂交,研究了豚鼠白血病淋巴母细胞中豚鼠逆转录病毒(5-溴脱氧尿苷[BUdR]诱导的GPV)的表达。结果发现,L(2)C白血病淋巴母细胞、白血病脾脏和BUdR诱导的病毒产生细胞均含有病毒特异性RNA:分别为0.05%(每细胞800至960个拷贝)、0.02%(每细胞360个拷贝)和0.3%(每细胞5120个拷贝)。另一方面,成年正常肝脏和脾脏每细胞所含病毒RNA不到0.2个拷贝。通过蔗糖速度梯度分析以及蔗糖梯度级分与cDNA的杂交确定,BUdR诱导的细胞和L(2)C白血病淋巴母细胞均含有14S、22S、35S和70S的总病毒特异性RNA及细胞质病毒特异性RNA。通过以下标准在BUdR诱导的细胞和L(2)C白血病淋巴母细胞中鉴定出病毒特异性mRNA:它在蔗糖梯度中与纯化的多核糖体共同沉降,并且如果在离心前用EDTA使多核糖体解聚,其沉降值会降低。从纯化多核糖体的多核糖体区域或EDTA解聚的纯化多核糖体的释放信使区域获得的病毒特异性mRNA在BUdR诱导的细胞和L(2)C白血病淋巴母细胞中均由14S、20S和35S的组分组成。cDNA与L(2)C白血病淋巴母细胞和BUdR诱导的细胞的RNA的杂交基本完全。此外,白血病淋巴母细胞RNA可取代95%的BUdR诱导的GPV 70S RNA与豚鼠DNA的杂交。在2倍浓缩的0.15 M NaCl加0.015 M柠檬酸钠中,GPV cDNA与L(2)C白血病淋巴母细胞的RNA或BUdR诱导的GPV的70S RNA形成的杂交体的热变性中点均为89℃。这些结果表明,BUdR诱导的GPV基因在L(2)C白血病淋巴母细胞中基本完全表达,并且存在病毒特异性mRNA,尽管L(2)C白血病淋巴母细胞中的RNA拷贝数比BUdR诱导的细胞少。