Bruenn J, Kane W
J Virol. 1978 Jun;26(3):762-72. doi: 10.1128/JVI.26.3.762-772.1978.
The relatedness of several double-stranded RNAs (dsRNA's) present in the virus-like particles of yeast was examined by T1 fingerprint analysis. The dsRNA's examined were L, the dsRNA encoding the capsid polypeptide of yeast virus-like particles; M, which appears to code for a toxic polypeptide and for resistance to the effects of the toxin; and two S dsRNA's present in particles analogous to the defective interfering particles of animal viruses. S3, a dsRNA of 0.46 X 10(6) daltons, was derived entirely from M, a dsRNA of 1.2 X 10(6) daltons. S1, a dsRNA of 0.92 X 10(6) daltons, was a duplication of S3. This conclusion has also been reached independently by heteroduplex mapping techniques (H. M. Fried and G. R. Fink, personal communication). S1 and S3, at least in one yeast strain, were unstable in sequence, apparently due to the accumulation of sequence variants of the same molecular weight. L was a species of 3 X 10(6) daltons, unrelated in sequence to M, S1, or S3. S1, S3, and M had a 3' T1 dodecanucleotide in common.
通过T1指纹分析检测了酵母病毒样颗粒中存在的几种双链RNA(dsRNA)之间的相关性。所检测的dsRNA包括:L,编码酵母病毒样颗粒衣壳多肽的dsRNA;M,似乎编码一种毒性多肽并赋予对该毒素作用的抗性;以及存在于类似于动物病毒缺陷干扰颗粒的颗粒中的两种S dsRNA。S3是一种分子量为0.46×10⁶道尔顿的dsRNA,完全源自分子量为1.2×10⁶道尔顿的dsRNA M。S1是一种分子量为0.92×10⁶道尔顿的dsRNA,是S3的重复序列。这一结论也已通过异源双链图谱技术独立得出(H.M.弗里德和G.R.芬克,个人交流)。至少在一个酵母菌株中,S1和S3在序列上不稳定,显然是由于相同分子量的序列变体的积累。L是一种分子量为3×10⁶道尔顿的种类,在序列上与M、S1或S3无关。S1、S3和M有一个共同的3'T1十二核苷酸。