Ishiyama T, Shinagawa M, Sato G, Fujinaga K, Padmanabhan R
Virology. 1986 May;151(1):66-76. doi: 10.1016/0042-6822(86)90104-2.
Equine adenovirus (EAd) DNA prepared from infected bovine kidney (MDBK) cells contained additional sequences of about 100 to 700 bp at the left-hand end of the genome. These aberrant viral genomes were produced even after the first passage of the wild type EAd in MDBK cells and their relative amounts did not change significantly during serial passage. The left terminal fragments of two defective viral DNAs were cloned into the plasmid vector pBR322 and the nucleotide sequences of their terminal regions were analyzed. The data indicate that one viral DNA contained a duplication of the inverted terminal repetition (ITR) and the other contained 270 bp of additional sequences derived from the right-terminal region of EAd genome added to the left-terminal, ITR. While the former DNA was packaged into virions, the latter was not, presumable due to the alteration of the distance from the left terminus to the putative DNA packaging signal, reported to be located between 290 and 390 bp (Hammarskjold and Winberg, 1980). The possible mechanism for the generation of these defective DNAs is discussed.
从感染的牛肾(MDBK)细胞中制备的马腺病毒(EAd)DNA在基因组左端含有约100至700 bp的额外序列。即使野生型EAd在MDBK细胞中首次传代后,这些异常的病毒基因组仍会产生,并且在连续传代过程中其相对含量没有显著变化。将两个缺陷病毒DNA的左末端片段克隆到质粒载体pBR322中,并分析其末端区域的核苷酸序列。数据表明,一种病毒DNA包含反向末端重复序列(ITR)的重复,另一种包含从EAd基因组右末端区域添加到左末端ITR的270 bp额外序列。虽然前一种DNA被包装到病毒粒子中,但后一种则没有,推测是由于从左末端到假定的DNA包装信号的距离发生了改变,据报道该信号位于290至390 bp之间(Hammarskjold和Winberg,1980)。本文讨论了这些缺陷DNA产生的可能机制。