2021
DOI: 10.1016/j.bbabio.2021.148429
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Deletion of the natural inhibitory protein Inh1 in Ustilago maydis has no effect on the dimeric state of the F1FO-ATP synthase but increases the ATPase activity and reduces the stability

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Cited by 4 publications
(5 citation statements)
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“…The key role of these natural F 1 F O -ATPase inhibitors has been researched by means of knockout or null IF 1 and ζ mutants, given that it is not possible to delete the essential ε subunit since its deletion leads to the detachment of F 1 from F O in bacterial F-ATP synthase because of its primary function as a central rotor subunit connecting F 1 with F O [ 31 ]. Several knockouts of mitochondrial IF 1 in fungi [ 61 ], yeast [ 62 ], nematodes [ 63 ], and mice [ 64 ] failed to show a knockout phenotype different to the wild-type strains, either because there are multiple copies of the IF 1 gene or because all of these species contain assembly or stabilizing factors genes (STFs) similar to IF 1 [ 65 , 66 , 67 , 68 ]. These IF 1 knockouts have only been made in a single IF 1 gene in most cases, and therefore, the other IF 1 gene copies or IF 1 -like stabilizing factors (STF1 or STF2) very likely complement the missing IF 1 gene in these single knockouts, thus explaining the lack of a clear different phenotype of the null mutants compared with the wild-type strains.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…The key role of these natural F 1 F O -ATPase inhibitors has been researched by means of knockout or null IF 1 and ζ mutants, given that it is not possible to delete the essential ε subunit since its deletion leads to the detachment of F 1 from F O in bacterial F-ATP synthase because of its primary function as a central rotor subunit connecting F 1 with F O [ 31 ]. Several knockouts of mitochondrial IF 1 in fungi [ 61 ], yeast [ 62 ], nematodes [ 63 ], and mice [ 64 ] failed to show a knockout phenotype different to the wild-type strains, either because there are multiple copies of the IF 1 gene or because all of these species contain assembly or stabilizing factors genes (STFs) similar to IF 1 [ 65 , 66 , 67 , 68 ]. These IF 1 knockouts have only been made in a single IF 1 gene in most cases, and therefore, the other IF 1 gene copies or IF 1 -like stabilizing factors (STF1 or STF2) very likely complement the missing IF 1 gene in these single knockouts, thus explaining the lack of a clear different phenotype of the null mutants compared with the wild-type strains.…”
Section: Resultsmentioning
confidence: 99%
“…Our previous functional observation of the role of IF 1 in stabilizing the dimeric and oligomeric structures of the mtATP synthase [ 108 ], besides inhibiting the F 1 F O -ATPase activity, has been therefore structurally confirmed by the cryo-EM structure of the pig tetrameric F-ATP synthase [ 115 ]. Other IF 1 knockout analyses have apparently shown that IF 1 is not essential or necessary for the dimerization or oligomerization of the mitochondrial F-ATP synthase since the F-ATP synthase dimer is preserved in BN-PAGE analysis in both WT and ΔIF 1 (or ΔINH1) knockout mutants [ 61 , 63 , 64 , 117 ]. However, as discussed above, at least one IF 1 gene copy or homologous IF 1 -like gene that still remains expressed could complement or substitute the inhibiting and dimerizing function of the missing IF 1 .…”
Section: Resultsmentioning
confidence: 99%
“…The second mechanism of ATP hydrolysis inhibition is implemented with the help of natural inhibitor proteins: the ε subunit in bacteria [ 60 ] and IF1 in mitochondria [ 61 ]. This type of inhibitor also includes the ζ subunit of α-proteobacteria [ 62 ].…”
Section: Reversibility Of F 1 F O ...mentioning
confidence: 99%
“…Studies of the IF1 function in various cell lines produced conflicting results, which did not help to understand the real role of this protein in the whole organism. In some experiments, IF1 knockout increased mitochondrial ATPase activity [ 61 ]. Other IF1 knockout mutants in yeast, mice or Caenorhabditis elegans showed no difference in growth, reproduction or bioenergetics compared to wild types [ 75 ].…”
Section: Reversibility Of F 1 F O ...mentioning
confidence: 99%
“…In the presence of protonophores, mitochondria isolated from the yeast strain with double deletion of IF 1 genes, Δinh1Δstf1 , hydrolyze ATP much faster than the mitochondria of wild type yeast do ( Ichikawa et al, 1990 ; Venard et al, 2003 ). Moreover, deletion of IF 1 homolog increased ATP hydrolysis rate in another yeast species, Ustilago maydis ( Lucero et al, 2021 ).…”
Section: Introductionmentioning
confidence: 99%