Abstract
Under environmental stress, microbes are known to alter their translation patterns using sequence-specific endoribonucleases that we call RNA interferases. However, there has been limited insight regarding which RNAs are specifically cleaved by these RNA interferases, hence their physiological functions remain unknown. In the current study, we developed a novel method to effectively identify cleavage specificities with massive parallel sequencing. This approach uses artificially designed RNAs composed of diverse sequences, which do not form extensive secondary structures, and it correctly identified the cleavage sequence of a well-characterized Escherichia coli RNA interferase, MazF, as ACA. In addition, we also determined that an uncharacterized MazF homologue isolated from Pseudomonas putida specifically recognizes the unique triplet, UAC. Using a real-time fluorescence resonance energy transfer assay, the UAC triplet was further proved to be essential for cleavage in P. putida MazF. These results highlight an effective method to determine cleavage specificity of RNA interferases.
Highlights
Toxin-antitoxin (TA) systems are genetic modules composed of a stable toxin and a volatile antitoxin
RNA interferases, which compose TA systems, are the toxin endoribonucleases that disrupt the stability of intracellular RNAs by cleaving them in a ribosome independent [12,13,14,15,16] or dependent [7,8,9,10,11] manner
We developed an easy-to-use method to define the cleavage pattern of RNA interferases with the Illumina platform (Fig 1)
Summary
Toxin-antitoxin (TA) systems are genetic modules composed of a stable toxin and a volatile antitoxin. They are widely distributed among archaeal and bacterial lineages and allow microbes to withstand environmental stresses [1,2,3]. When microbes face these environmental stresses, antitoxin, which prevents toxin activity, is rapidly degraded. Toxin molecules inhibit requisite cellular functions, causing microbial growth arrest and eventually cell death [4]. In Escherichia coli, several types of toxin ribonucleases have been shown to catalyze intracellular RNA cleavage in a ribosome dependent (RelE, HigB, YafO, YafQ, and YoeB) [7,8,9,10,11] or independent (MazF, MqsR, ChpBK, HicA, and RnlA) [12,13,14,15,16] fashion
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