Mitsuhiko Ikura scite author profile

Escherichia coli contains operons called "addiction modules," encoding toxin and antitoxin, which are responsible for growth arrest and cell death. Here, we demonstrate that MazF toxin encoded by "mazEF addiction module" is a sequence-specific (ACA) endoribonuclease functional only for single-stranded RNA. MazF works as a ribonuclease independent of ribosomes, and is, therefore, functionally distinct from RelE, another E. coli toxin, which assists mRNA cleavage at the A site on ribosomes. Upon induction, MazF cleaves whole cellular mRNAs to efficiently block protein synthesis. Purified MazF inhibited protein synthesis in both prokaryotic and eukaryotic cell-free systems. This inhibition was released by MazE, the labile antitoxin against MazF. Thus, MazF functions as a toxic endoribonuclease to interfere with the function of cellular mRNAs by cleaving them at specific sequences leading to rapid cell growth arrest and cell death. The role of such endoribonucleases may have broad implication in cell physiology under various growth conditions.

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Structural and Mechanistic Insights into STIM1-Mediated Initiation of Store-Operated Calcium Entry

Stathopulos

Zheng

et al. 2008

Cell

420

567

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Stromal interaction molecule-1 (STIM1) activates store-operated Ca2+ entry (SOCE) in response to diminished luminal Ca2+ levels. Here, we present the atomic structure of the Ca2+-sensing region of STIM1 consisting of the EF-hand and sterile alpha motif (SAM) domains (EF-SAM). The canonical EF-hand is paired with a previously unidentified EF-hand. Together, the EF-hand pair mediates mutually indispensable hydrophobic interactions between the EF-hand and SAM domains. Structurally critical mutations in the canonical EF-hand, "hidden" EF-hand, or SAM domain disrupt Ca2+ sensitivity in oligomerization via destabilization of the entire EF-SAM entity. In mammalian cells, EF-SAM destabilization mutations within full-length STIM1 induce punctae formation and activate SOCE independent of luminal Ca2+. We provide atomic resolution insight into the molecular basis for STIM1-mediated SOCE initiation and show that the folded/unfolded state of the Ca2+-sensing region of STIM is crucial to SOCE regulation.

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Three-dimensional triple-resonance NMR spectroscopy of isotopically enriched proteins

Kay

Ikura

Tschudin

et al. 1990

Journal of Magnetic Resonance (1969)

451

504

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Mitsuhiko Ikura

Rapid recording of 2D NMR spectra without phase cycling. Application to the study of hydrogen exchange in proteins

MazF Cleaves Cellular mRNAs Specifically at ACA to Block Protein Synthesis in Escherichia coli

Structural and Mechanistic Insights into STIM1-Mediated Initiation of Store-Operated Calcium Entry

Three-dimensional triple-resonance NMR spectroscopy of isotopically enriched proteins

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