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The structure and function of Mycobacterium tuberculosis MazF-mt6 toxin provide insights into conserved features of MazF endonucleases.


ABSTRACT: Toxin-antitoxin systems are ubiquitous in prokaryotic and archaeal genomes and regulate growth in response to stress. Escherichia coli contains at least 36 putative toxin-antitoxin gene pairs, and some pathogens such as Mycobacterium tuberculosis have over 90 toxin-antitoxin operons. E. coli MazF cleaves free mRNA after encountering stress, and nine M. tuberculosis MazF family members cleave mRNA, tRNA, or rRNA. Moreover, M. tuberculosis MazF-mt6 cleaves 23S rRNA Helix 70 to inhibit protein synthesis. The overall tertiary folds of these MazFs are predicted to be similar, and therefore, it is unclear how they recognize structurally distinct RNAs. Here we report the 2.7-Å X-ray crystal structure of MazF-mt6. MazF-mt6 adopts a PemK-like fold but lacks an elongated ?1-?2 linker, a region that typically acts as a gate to direct RNA or antitoxin binding. In the absence of an elongated ?1-?2 linker, MazF-mt6 is unable to transition between open and closed states, suggesting that the regulation of RNA or antitoxin selection may be distinct from other canonical MazFs. Additionally, a shortened ?1-?2 linker allows for the formation of a deep, solvent-accessible, active-site pocket, which may allow recognition of specific, structured RNAs like Helix 70. Structure-based mutagenesis and bacterial growth assays demonstrate that MazF-mt6 residues Asp-10, Arg-13, and Thr-36 are critical for RNase activity and likely catalyze the proton-relay mechanism for RNA cleavage. These results provide further critical insights into how MazF secondary structural elements adapt to recognize diverse RNA substrates.

SUBMITTER: Hoffer ED 

PROVIDER: S-EPMC5427253 | biostudies-literature | 2017 May

REPOSITORIES: biostudies-literature

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The structure and function of <i>Mycobacterium tuberculosis</i> MazF-mt6 toxin provide insights into conserved features of MazF endonucleases.

Hoffer Eric D ED   Miles Stacey J SJ   Dunham Christine M CM  

The Journal of biological chemistry 20170315 19


Toxin-antitoxin systems are ubiquitous in prokaryotic and archaeal genomes and regulate growth in response to stress. <i>Escherichia coli</i> contains at least 36 putative toxin-antitoxin gene pairs, and some pathogens such as <i>Mycobacterium tuberculosis</i> have over 90 toxin-antitoxin operons. <i>E. coli</i> MazF cleaves free mRNA after encountering stress, and nine <i>M. tuberculosis</i> MazF family members cleave mRNA, tRNA, or rRNA. Moreover, <i>M. tuberculosis</i> MazF-mt6 cleaves 23S rR  ...[more]

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