2015
DOI: 10.1021/acs.biochem.5b00512
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Structure and Function of Cu(I)- and Zn(II)-ATPases

Abstract: Copper and zinc are micronutrients essential for the function of many enzymes while also being toxic at elevated concentrations. Cu(I)- and Zn(II)-transporting P-type ATPases of subclass 1B are of key importance for the homeostasis of these transition metals, allowing ion transport across cellular membranes at the expense of ATP. Recent biochemical studies and crystal structures have significantly improved our understanding of the transport mechanisms of these proteins, but many details about their structure a… Show more

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Cited by 47 publications
(49 citation statements)
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“…KdpB is characterized by seven transmembrane helices, the first six of which are consistent with the 'core' of other P-type ATPases19. The middle of bM4 is unwound at the conserved proline motif (IP 264 TTI) and very similar to M4 of the Ca 2+ -ATPase (SERCA1a) in the Ca 2+ bound E1 state 10 (Extended Data Fig.…”
mentioning
confidence: 67%
“…KdpB is characterized by seven transmembrane helices, the first six of which are consistent with the 'core' of other P-type ATPases19. The middle of bM4 is unwound at the conserved proline motif (IP 264 TTI) and very similar to M4 of the Ca 2+ -ATPase (SERCA1a) in the Ca 2+ bound E1 state 10 (Extended Data Fig.…”
mentioning
confidence: 67%
“…P‐1B‐2 ATPase enzymes contain the Cys‐Pro‐Cys motif in the center of the sixth transmembrane domain (TMD), Lys in seventh TMD and Asp and Gly in the eighth TMD, as a putative component of the corresponding transmembrane metal binding site . The studies on ZntA from Shigella sonnei show that two amino acid residues: Asp714 (situated close to the CPC motif) and Lys693 are necessary for the activity of ATPase …”
Section: Bacterial Zinc Homeostasismentioning
confidence: 55%
“…[83b, 84] The studies on ZntA from Shigella sonnei show that two amino acid residues: Asp714 (situated close to the CPC motif) and Lys693 are necessary for the activity of ATPase. [86] P1B-Zn II ATPase from E. coli has a~120 residue N-terminal domain with as ingle repeat of the GXXCXXC motif andf our additional cysteiner esidues (in the form of aC CCDXXC sequence). [81b] The conserved CXXC motif near the N-terminus in the cytoplasmic domain and CPC motif located in the transmembrane fragment are involved in binding of the translocated metal.…”
Section: Export Systemsmentioning
confidence: 99%
“…It is likely that other P-type ATPases for which their structural mechanisms are less known, such as the Zn 2+ - and Cu + -transporting ATPases, 77, 78 use a similar E2-E1 mechanism to couple structural changes with ion transport. 79 We propose that preexisting domain motions that underlie the E2-E1 structural transition described in this study are a common theme in ligand-induced structural shifts associated with function of the P-type ATPase superfamily.…”
Section: Discussionmentioning
confidence: 74%