7ky9 Citations

Transport mechanism of P4 ATPase phosphatidylcholine flippases.

<div class='caption-title'>Purification and characterization of the detergent-purified flippases.</div>
<div class='caption-title'>Purification of the Dnf1–Lem3 and Dnf2–Lem3 complexes.</div>
<div class='caption-title'>Structure of the S. cerevisiae class-3 lipid flippase Dnf1–Lem3 in the E2P state.</div>
Bai L, You Q, Jain BK, Duan HD, Kovach A, Graham TR, Li H
OpenAccess logo Elife 9 (2020)
Related entries: 7ky5, 7ky6, 7ky7, 7ky8, 7kya, 7kyb, 7kyc

Cited: 25 times
EuropePMC logo PMID: 33320091

Abstract

The P4 ATPases use ATP hydrolysis to transport large lipid substrates across lipid bilayers. The structures of the endosome- and Golgi-localized phosphatidylserine flippases-such as the yeast Drs2 and human ATP8A1-have recently been reported. However, a substrate-binding site on the cytosolic side has not been found, and the transport mechanisms of P4 ATPases with other substrates are unknown. Here, we report structures of the S. cerevisiae Dnf1-Lem3 and Dnf2-Lem3 complexes. We captured substrate phosphatidylcholine molecules on both the exoplasmic and cytosolic sides and found that they have similar structures. Unexpectedly, Lem3 contributes to substrate binding. The conformational transitions of these phosphatidylcholine transporters match those of the phosphatidylserine transporters, suggesting a conserved mechanism among P4 ATPases. Dnf1/Dnf2 have a unique P domain helix-turn-helix insertion that is important for function. Therefore, P4 ATPases may have retained an overall transport mechanism while evolving distinct features for different lipid substrates.

Reviews - 7ky9 mentioned but not cited (1)

  1. Consensus, controversies, and conundrums of P4-ATPases: The emerging face of eukaryotic lipid flippases. Duan HD, Li H. J Biol Chem 300 107387 (2024)


Reviews citing this publication (6)

  1. Regulation of phospholipid distribution in the lipid bilayer by flippases and scramblases. Sakuragi T, Nagata S. Nat Rev Mol Cell Biol 24 576-596 (2023)
  2. P-type ATPases: Many more enigmas left to solve. Palmgren M. J Biol Chem 299 105352 (2023)
  3. Lipid Transporters Beam Signals from Cell Membranes. Ristovski M, Farhat D, Bancud SEM, Lee JY. Membranes (Basel) 11 562 (2021)
  4. Lipid flippases as key players in plant adaptation to their environment. López-Marqués RL. Nat Plants 7 1188-1199 (2021)
  5. Physiological and Pathological Functions of TMEM30A: An Essential Subunit of P4-ATPase Phospholipid Flippases. Li J, Zhao Y, Wang N. J Lipids 2023 4625567 (2023)
  6. The role of secreted proteins in efferocytosis. Hou G, Wang X, Wang A, Yuan L, Zheng Q, Xiao H, Wang H. Front Cell Dev Biol 11 1332482 (2023)

Articles citing this publication (18)



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