一种细菌 mRNA 前导序列,它采用不同的机制来感知不同的细胞内信号。
A bacterial mRNA leader that employs different mechanisms to sense disparate intracellular signals.
机构信息
Department of Molecular Microbiology, Washington University School of Medicine, St. Louis, MO 63110, USA.
出版信息
Cell. 2010 Sep 3;142(5):737-48. doi: 10.1016/j.cell.2010.07.046.
Abstract
Bacterial mRNAs often contain leader sequences that respond to specific metabolites or ions by altering expression of the associated downstream protein-coding sequences. Here we report that the leader RNA of the Mg(2+) transporter gene mgtA of Salmonella enterica, which was previously known to function as a Mg(2+)-sensing riboswitch, harbors an 18 codon proline-rich open reading frame-termed mgtL-that permits intracellular proline to regulate mgtA expression. Interfering with mgtL translation by genetic, pharmacological, or environmental means was observed to increase the mRNA levels from the mgtA coding region. Substitution of the mgtL proline codons by other codons abolished the response to proline and to hyperosmotic stress but not to Mg(2+). Our findings show that mRNA leader sequences can consist of complex regulatory elements that utilize different mechanisms to sense separate signals and mediate an appropriate cellular response.
摘要
细菌 mRNA 通常含有前导序列,通过改变相关下游蛋白质编码序列的表达来响应特定的代谢物或离子。在这里,我们报告了沙门氏菌 mgtA 基因的 Mg(2+)转运蛋白基因的前导 RNA,该 RNA 先前被认为是作为 Mg(2+)-感应核糖开关发挥作用的,它含有一个 18 个密码子的脯氨酸丰富的开放阅读框,称为 mgtL-允许细胞内脯氨酸调节 mgtA 的表达。通过遗传、药理学或环境手段干扰 mgtL 翻译,观察到 mgtA 编码区的 mRNA 水平增加。用其他密码子取代 mgtL 脯氨酸密码子会消除对脯氨酸和高渗胁迫的反应,但不会消除对 Mg(2+)的反应。我们的研究结果表明,mRNA 前导序列可以包含复杂的调节元件,这些元件利用不同的机制来感知分离的信号并介导适当的细胞反应。
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