Author:
Diwa Alexis,Bricker Angela L.,Jain Chaitanya,Belasco Joel G.
Abstract
RNase E is a key regulatory enzyme that controls the principal pathway for mRNA degradation in Escherichia coli. The cellular concentration of this endonuclease is governed by a feedback mechanism in which RNase E tightly regulates its own synthesis. Autoregulation is mediated in cis by the 361-nucleotide 5′ untranslated region (UTR) of rne (RNase E) mRNA. Here we report the determination of the secondary structure of the rne 5′ UTR by phylogenetic comparison and chemical alkylation, together with dissection studies to identify the 5′ UTR element that mediates autoregulation. Our findings reveal that the structure and function of the rne 5′ UTRs are evolutionarily well conserved despite extensive sequence divergence. Within the rne 5′ UTRs are multiple RNA secondary structure elements, two of which function incis to mediate feedback regulation of rne gene expression. The more potent of these two elements is a stem–loop structure containing an internal loop whose sequence is the most highly conserved of any region of the rne 5′ UTR. Our data show that this stem–loop functions as a sensor of cellular RNase E activity that directs autoregulation by modulating the degradation rate ofrne mRNA in response to changes in RNase E activity.
Publisher
Cold Spring Harbor Laboratory
Subject
Developmental Biology,Genetics
Cited by
25 articles.
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