Shimada M, Inouye S, Inouye M
Department of Biochemistry, Robert Wood Johnson Medical School, Piscataway, New Jersey 08854.
J Biol Chem. 1994 May 20;269(20):14553-8.
Multicopy single-stranded DNA (msDNA) is produced by bacterial retroelements called retrons. It consists of single-stranded DNA that is linked to an internal G residue of an RNA molecule by a 2',5'-phosphodiester linkage. It has been demonstrated that specific primary sequences, as well as the secondary structures immediately downstream of the G residue, are essential for the cDNA priming reaction (Shimamoto, T., Hsu, M.-Y., Inouye, S., and Inouye, M. (1993) J. Biol. Chem. 268, 2684-2692). We have now examined the requirement of the structures in the region corresponding to DNA for msDNA synthesis. The upper stem region consisting of 71 bases of msDNA-Ec107 was found not to be essential, and this region could be deleted to efficiently produce a truncated msDNA containing only a 36-base single-stranded DNA. Various mutations including base replacements, deletions, and insertions were constructed in the lower stem region. It was found that any mutations resulting in more stable secondary structures caused reduction in msDNA synthesis. The results indicated that reverse transcriptase requires a loose secondary structure in the template RNA near the cDNA priming site for cDNA elongation.
多拷贝单链DNA(msDNA)由名为反转录子的细菌反转元件产生。它由单链DNA组成,该单链DNA通过2',5'-磷酸二酯键与RNA分子的一个内部G残基相连。已经证明,特定的一级序列以及G残基下游紧邻的二级结构对于cDNA引发反应至关重要(岛本,T.,许,M.-Y.,井上,S.,和井上,M.(1993年)《生物化学杂志》268,2684 - 2692)。我们现在研究了对应于DNA的区域中的结构对msDNA合成的要求。发现由msDNA-Ec107的71个碱基组成的上部茎区并非必不可少,并且该区域可以被删除以有效地产生仅包含36个碱基的单链DNA的截短型msDNA。在下部茎区构建了包括碱基替换、缺失和插入在内的各种突变。发现任何导致二级结构更稳定的突变都会使msDNA合成减少。结果表明,逆转录酶在cDNA引发位点附近的模板RNA中需要一个松散的二级结构来进行cDNA延伸。
