噬菌体T4脱氧核糖核酸的体外转录

Transcription of bacteriophage T4 deoxyribonucleic acid in vitro.

作者信息

Bishop J O, Robertson F W

出版信息

Biochem J. 1969 Nov;115(3):353-61. doi: 10.1042/bj1150353.

DOI:10.1042/bj1150353

PMID:4901068

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1185113/

Abstract

RNA was synthesized in vitro from a template of bacteriophage T4 DNA, in the presence of Mn(2+). A comparison was made of the RNA synthesized by purified RNA polymerase from two sources, Micrococcus lysodeikticus and Escherichia coli; these are referred to as Micrococcus cRNA and E. coli cRNA respectively (where cRNA indicates RNA synthesized in vitro by using purified RNA polymerase and a DNA primer). 2. Both types of RNA were self-complementary as judged by resistance to digestion with ribonuclease after self-annealing, Micrococcus cRNA being more self-complementary (40%) than was E. coli cRNA (30%). The cRNA was found to be much less self-complementary if Mg(2+) was present during RNA synthesis instead of Mn(2+). 3. Micrococcus cRNA hybridized with a larger part of bacteriophage T4 DNA than did E. coli cRNA. The E. coli cRNA competed with only part (70%) of the Micrococcus cRNA in hybridization-competition experiments. It is concluded that more sequences of bacteriophage T4 DNA are transcribed by Micrococcus polymerase than by E. coli polymerase. 4. The RNA sequences synthesized by Micrococcus RNA polymerase but not by E. coli RNA polymerase are shown by hybridization competition to compete with specifically late bacteriophage T4 messenger RNA sequences. The relevance of this finding to the control of transcription is discussed. 5. In an Appendix, new methods are described for the analysis of hybridization-saturation and -competition experiments. Particular attention is paid to the effects produced if different RNA sequences are present at different relative concentrations. 6. By using cRNA isolated from an enzymically synthesized DNA-RNA hybrid, it is estimated that, of the DNA that is complementary to cRNA, only about half can become hybridized with cRNA under the experimental conditions used.

摘要

在锰离子（Mn²⁺）存在的情况下，以噬菌体T4 DNA为模板在体外合成RNA。对由来自两种来源（溶壁微球菌和大肠杆菌）的纯化RNA聚合酶合成的RNA进行了比较；它们分别被称为微球菌cRNA和大肠杆菌cRNA（其中cRNA表示使用纯化的RNA聚合酶和DNA引物在体外合成的RNA）。2. 通过自退火后对核糖核酸酶消化的抗性判断，两种类型的RNA都是自我互补的，微球菌cRNA比大肠杆菌cRNA更具自我互补性（40%对30%）。如果在RNA合成过程中存在镁离子（Mg²⁺）而非锰离子，则发现cRNA的自我互补性要低得多。3. 微球菌cRNA与噬菌体T4 DNA的杂交部分比大肠杆菌cRNA大。在杂交竞争实验中，大肠杆菌cRNA仅与微球菌cRNA的一部分（70%）竞争。得出的结论是，微球菌聚合酶转录的噬菌体T4 DNA序列比大肠杆菌聚合酶转录的多。4. 通过杂交竞争表明，微球菌RNA聚合酶合成但大肠杆菌RNA聚合酶不合成的RNA序列与噬菌体T4特异性晚期信使RNA序列竞争。讨论了这一发现与转录控制的相关性。5. 在附录中，描述了用于分析杂交饱和度和竞争实验的新方法。特别关注了如果不同RNA序列以不同相对浓度存在时产生的影响。6. 通过使用从酶促合成的DNA-RNA杂交体中分离的cRNA，估计在所用实验条件下，与cRNA互补的DNA中只有约一半能与cRNA杂交。