2017
DOI: 10.1016/j.jmb.2017.02.009
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Identification of a Degradation Signal Sequence within Substrates of the Mitochondrial i-AAA Protease

Abstract: The i-AAA protease is a component of the mitochondrial quality control machinery that regulates respiration, mitochondrial dynamics, and protein import. The protease is required to select specific substrates for degradation from among the diverse complement of proteins present in mitochondria, yet the rules that govern this selection are unclear. Here, we reconstruct the yeast i-AAA protease, Yme1p, to examine the in vitro degradation of two intermembrane space chaperone subunits, Tim9 and Tim10. Yme1p degrade… Show more

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Cited by 22 publications
(50 citation statements)
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“…To verify the crucial role of F381 in substrate translocation, we used established assays to monitor ATP hydrolysis and substrate degradation for an engineered hexameric AFG3L2, where the transmembrane domains were substituted by a hexamerizing coiled coil ( cchex AFG3L2) 42 ( Figure 1B). As previously shown, the coiled coil ensures hexamerization of active subunits in the absence of any stabilizing mutations 43,44 . Incorporation of an F381A substitution abolished substrate degradation, while only mildly impacting ATP hydrolysis ( Figure 2B), confirming that the aromatic pore-loop 1 residue in AFG3L2 plays a conserved, essential role in substrate translocation.…”
Section: Modulation Of a Conserved Translocation Mechanism By Afg3l2-mentioning
confidence: 60%
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“…To verify the crucial role of F381 in substrate translocation, we used established assays to monitor ATP hydrolysis and substrate degradation for an engineered hexameric AFG3L2, where the transmembrane domains were substituted by a hexamerizing coiled coil ( cchex AFG3L2) 42 ( Figure 1B). As previously shown, the coiled coil ensures hexamerization of active subunits in the absence of any stabilizing mutations 43,44 . Incorporation of an F381A substitution abolished substrate degradation, while only mildly impacting ATP hydrolysis ( Figure 2B), confirming that the aromatic pore-loop 1 residue in AFG3L2 plays a conserved, essential role in substrate translocation.…”
Section: Modulation Of a Conserved Translocation Mechanism By Afg3l2-mentioning
confidence: 60%
“…ATPase activity, fluorescence-based protein degradation, and fluorogenic peptide cleavage assays were performed as previously described with some modifications 42,44 . ATPase assays were carried out at 37 • C in a 384-well clear bottom plate (Corning) using a SpectraMax M5 plate reader (Molecular Devices) with 1 µM cchex AFG3L2 or its variants.…”
Section: Biochemical Assaysmentioning
confidence: 99%
“…To confirm that these observed pore-loop interactions play a role in substrate translocation, we examined the substrate degradation activity of hex YME1 containing point mutations in the pore-loop 1 tyrosine (Y354A) or the pore-loop 2 tyrosine (Y396A). Introduction of these mutations into either pore loop largely abolish degradation of the I27 domain of human titin bearing an N-terminal degron derived from the mitochondrial Tim10 protein (T10-I27) ( Figure 2B) (Rampello and Glynn 2017). The introduction of mutations in the I27 domain to destabilize the folded structure (T10-I27 CD ) produced a large increase in degradation rate by wild-type hex YME1, likely resulting from the removal of the unfolding step of degradation (Kenniston 2003).…”
Section: Yme1 Atpase Domains Engage Substrates Through a Double Spiramentioning
confidence: 99%
“…All additional variants of hex YME1 were generated by site-directed mutagenesis using wild-type hex YME1 as a template. All hex YME1 variants were expressed and purified as previously described (Shi 2016, Rampello andGlynn 2017) with the following alterations. Proteins used in cryo-EM studies were buffer exchanged immediately prior to size exclusion chromatography into a buffer containing 20mM Tris-HCl (pH 8.0), 300mM NaCl, 2mM EDTA, 10% glycerol, and 1mM DTT.…”
Section: Cloning and Purificationmentioning
confidence: 99%
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