DePolo N J, Giachetti C, Holland J J
J Virol. 1987 Feb;61(2):454-64. doi: 10.1128/JVI.61.2.454-464.1987.
We quantitatively analyzed the interference interactions between defective interfering (DI) particles and mutants of cloned vesicular stomatitis virus passaged undiluted hundreds of times in BHK-21 cells. DI particles which predominated at different times in these serial passages always interfered most strongly (and very efficiently) with virus isolated a number of passages before the isolation of the DI particles. Virus isolated at the same passage level as the predominant DI particles usually exhibited severalfold resistance to these DI particles. Virus mutants (Sdi- mutants) isolated during subsequent passages always showed increasing resistance to these DI particles, followed by decreasing resistance as new DI particles arose to predominate and exert their own selective pressures on the virus mutant population. It appears that such coevolution of virus and DI particle populations proceeds indefinitely through multiple cycles of selection of virus mutants resistant to a certain DI particle (or DI particle class), followed by mutants resistant to a newly predominant DI particle, etc. At the peak of resistance, virus mutants were isolated which were essentially completely resistant to a particular DI particle; i.e., they were several hundred thousand-fold resistant, and they formed plaques of normal size and numbers in the presence of extremely high multiplicities of the DI particle. However, they were sensitive to interference by other DI particles. Recurring population interactions of this kind can promote rapid virus evolution. Complete sequencing of the N (nucleocapsid) and NS (polymerase associated) genes of numerous Sdi- mutants collected at passage intervals showed very few changes in the NS protein, but the N gene gradually accumulated a series of stable nucleotide and amino acid substitutions, some of which correlated with extensive changes in the Sdi- phenotype. Likewise, the 5' termini (and their complementary plus-strand 3' termini) continued to accumulate extensive base substitutions which were strikingly confined to the first 47 nucleotides. We also observed addition and deletion mutations in noncoding regions of the viral genome at a level suggesting that they probably occur at a high frequency throughout the genome, but usually with lethal or debilitating consequences when they occur in coding regions.
我们定量分析了缺陷干扰(DI)颗粒与在BHK-21细胞中连续传代数百次且未稀释的克隆水疱性口炎病毒突变体之间的干扰相互作用。在这些连续传代中不同时间占主导的DI颗粒,总是对在DI颗粒分离前若干代分离的病毒产生最强(且非常高效)的干扰。与占主导的DI颗粒处于同一传代水平分离的病毒通常对这些DI颗粒表现出几倍的抗性。在后续传代中分离出的病毒突变体(Sdi-突变体)对这些DI颗粒的抗性总是不断增加,随后随着新的DI颗粒占主导并对病毒突变体群体施加自身的选择压力,抗性又会降低。看来病毒和DI颗粒群体的这种共同进化通过对某种DI颗粒(或DI颗粒类别)具有抗性的病毒突变体的多个选择循环无限进行,随后是对新占主导的DI颗粒具有抗性的突变体等。在抗性峰值时,分离出了基本上对特定DI颗粒完全抗性的病毒突变体;即,它们具有几十万倍的抗性,并且在存在极高复数的DI颗粒时形成正常大小和数量的噬斑。然而,它们对其他DI颗粒的干扰敏感。这种反复出现的群体相互作用可促进病毒的快速进化。在传代间隔收集的众多Sdi-突变体的N(核衣壳)和NS(聚合酶相关)基因的完整测序显示,NS蛋白变化很少,但N基因逐渐积累了一系列稳定的核苷酸和氨基酸替换,其中一些与Sdi-表型的广泛变化相关。同样,5'末端(及其互补的正链3'末端)继续积累广泛的碱基替换,这些替换明显局限于前47个核苷酸。我们还在病毒基因组的非编码区观察到插入和缺失突变,其水平表明它们可能在整个基因组中高频发生,但当它们发生在编码区时通常具有致死或衰弱的后果。
