Ericson G, Wollenzien P
E.A. Doisy Department of Biochemistry, St. Louis University Medical Center, Missouri 63104.
Anal Biochem. 1988 Oct;174(1):215-23. doi: 10.1016/0003-2697(88)90538-6.
We have studied the properties of avian myeloblastosis virus reverse transcriptase on Escherichia coli 16S ribosomal RNA that was known to contain a psoralen crosslink in a restricted region around residue 920. These crosslinked RNA molecules were purified on the basis of loop size by gel electrophoresis. Reverse transcription stopped at specific positions in the crosslinked molecules but not in control linear molecules. With the particular crosslink that was studied, at the earliest time of reverse transcription, the most frequent stopping site was G925. At later times two nearly equal stops at G925 and C924 were seen. The crosslinked site was an absolute stop since even at long times of incubation the reverse transcriptase was not able to proceed beyond G925/C924. An independent determination of the crosslinked site by directly sequencing a section of the crosslinked RNA indicated that C924 was the sole nucleotide involved in the crosslink. Therefore, reverse transcriptase was able to synthesize cDNA all the way up to and including the nucleotide that contained the psoralen crosslink. Thus, reverse transcription can be a rapid and precise method for determining psoralen crosslinking sites when prefractionated, crosslinked RNA templates are used.
我们研究了禽成髓细胞瘤病毒逆转录酶对大肠杆菌16S核糖体RNA的作用,已知该RNA在920位残基附近的一个受限区域含有一个补骨脂素交联。这些交联的RNA分子通过凝胶电泳根据环大小进行纯化。逆转录在交联分子的特定位置停止,但在对照线性分子中不停止。对于所研究的特定交联,在逆转录的最早阶段,最常见的终止位点是G925。在稍后阶段,在G925和C924处出现了两个几乎相等的终止。交联位点是一个绝对终止位点,因为即使在长时间孵育后,逆转录酶也无法越过G925/C924继续进行。通过直接对交联RNA的一部分进行测序对交联位点进行的独立测定表明,C924是参与交联的唯一核苷酸。因此,逆转录酶能够一直合成cDNA,直至并包括含有补骨脂素交联的核苷酸。因此,当使用预分级的交联RNA模板时,逆转录可以是一种快速而精确的确定补骨脂素交联位点的方法。