2017
DOI: 10.1074/jbc.m117.784959
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The uniqueness of subunit α of mycobacterial F-ATP synthases: An evolutionary variant for niche adaptation

Abstract: The FF -ATP (F-ATP) synthase is essential for growth of , the causative agent of tuberculosis (TB). In addition to their synthase function most F-ATP synthases possess an ATP-hydrolase activity, which is coupled to proton-pumping activity. However, the mycobacterial enzyme lacks this reverse activity, but the reason for this deficiency is unclear. Here, we report that a-specific, 36-amino acid long C-terminal domain in the nucleotide-binding subunit α (α) of F-ATP synthase suppresses its ATPase activity and de… Show more

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Cited by 41 publications
(83 citation statements)
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“…7D). This is in line with recent observations of deletion mutants of the C-terminus (Da 514-549 ) and the novel loop region (Dc166-179) of the mycobacterial ɑ and c subunit, respectively (Dc166-179), both resulting in significant reduction in ATP synthesis but without major differences in cell growth compared to WT [23,26]. As pointed out above, in rich media glucose provides the bacterium with sufficient carbohydrates, increasing the metabolic flux through the Krebs cycle, and generating higher yields of NADH and ATP.…”
Section: Discussionsupporting
confidence: 91%
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“…7D). This is in line with recent observations of deletion mutants of the C-terminus (Da 514-549 ) and the novel loop region (Dc166-179) of the mycobacterial ɑ and c subunit, respectively (Dc166-179), both resulting in significant reduction in ATP synthesis but without major differences in cell growth compared to WT [23,26]. As pointed out above, in rich media glucose provides the bacterium with sufficient carbohydrates, increasing the metabolic flux through the Krebs cycle, and generating higher yields of NADH and ATP.…”
Section: Discussionsupporting
confidence: 91%
“…(C) A structural model of the α chi 3 β 3 γ‐complex generated based on the G. stearothermophilus F 1 ‐ ATP ase structure ( PDB ID : 4XD7 ). The solution shape of α chi (green sphere) was superimposed on to the Gs α structure (16) (green) and the NMR solution structure of the C‐terminal peptide Mt α 521‐540 (green) was placed in the extra density of the SAXS ‐shape. The Mt ε (magenta) inside the α chi 3 β 3 γ‐complex was modeled to have extended Mt ε CTD .…”
Section: Discussionmentioning
confidence: 99%
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“…However, the sequence register could not be determined unambiguously, and so this segment is modeled as unknown and numbered 1512-1522. In a peptide representing residues 521-540, it has been shown by solution nuclear magnetic resonance (NMR) that residues 526-539 are α-helical (but no coordinates are available) and on the basis of structure prediction that this α-helical structure prevailed in the intact protein (19). However, the current prediction of intrinsic disorder in the entire C-terminal region from residues 512-548 (SI Appendix, Fig.…”
Section: Resultsmentioning
confidence: 99%