影响信使核糖核酸寿命的基因：一种信使核糖核酸稳定性改变的大肠杆菌突变体。

Gene affecting longevity of messenger RNA: a mutant of Escherichia coli with altered mRNA stability.

作者信息

Kuwano M, Ono M, Endo H, Hori K, Nakamura K, Hirota Y, Ohnishi Y

出版信息

Mol Gen Genet. 1977 Sep 9;154(3):279-85. doi: 10.1007/BF00571283.

Abstract

We have screened 897 temperature sensitive growth mutants of E. coli for mutant strains showing longer mRNA half-life. The fate of pulse-labelled RNA was examined at 42 degrees C after cessation of RNA synthesis and with prior exposure to nonpermissive temperature (42 degrees C). Eight stains showed altered turnover of RNA (presumably mRNA), and further analysis on mutant strain JE15144 indicated that the stability of pulse-labeled RNA as well as of tryptophan (trp) mRNA increased four to seven fold over its parental strain at 42 degrees C. At 4 min or 10 min after addition of rifampicin, some 70 to 80% of polyribosome in the growing cells could still be conserved in JE15144 cultured at the nonpermissive temperature while little, if any, polyribosomes remained in its parental strain (PA3092) under the same condition. Two generation times were required for complete stoppage of growth of this mutant strain after shifting to 42 degrees C, and protein synthesis continued at a significant, but slightly reduced, rate at 42 degrees C. However, functional decay of mRNA in the mutant strain, with respect to the capacity for producing peptides, appeared to be similar to the parent strain, with half-lives of 3.5 min in PA3092 and 4.7 min in JE15144.

摘要

我们筛选了897个大肠杆菌温度敏感型生长突变体，以寻找mRNA半衰期更长的突变菌株。在RNA合成停止后，于42℃检查脉冲标记RNA的命运，并事先暴露于非允许温度（42℃）。八个菌株显示出RNA（可能是mRNA）周转的改变，对突变菌株JE15144的进一步分析表明，在42℃下，脉冲标记RNA以及色氨酸（trp）mRNA的稳定性比其亲本菌株增加了4至7倍。在加入利福平后4分钟或10分钟，在非允许温度下培养的JE15144中，生长细胞中约70%至80%的多核糖体仍可保留，而在相同条件下，其亲本菌株（PA3092）中几乎没有多核糖体残留。该突变菌株转移至42℃后，需要两个世代时间才能完全停止生长，并且在42℃下蛋白质合成仍以显著但略有降低的速率继续。然而，就产生肽的能力而言，突变菌株中mRNA的功能衰退似乎与亲本菌株相似，PA3092中的半衰期为3.5分钟，JE15144中的半衰期为4.7分钟。

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影响信使核糖核酸寿命的基因：一种信使核糖核酸稳定性改变的大肠杆菌突变体。

Gene affecting longevity of messenger RNA: a mutant of Escherichia coli with altered mRNA stability.

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