Cryo-EM structures capturing the entire transport cycle of the P4-ATPase flippase

Hiraizumi, Masahiro; Yamashita, Keitaro; Nishizawa, Takashi; Nureki, Osamu

doi:10.1101/666321

Cited by 4 publications

(3 citation statements)

References 57 publications

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“…The beta subunit is generally composed of two transmembrane helices, where there is evidence showing a shared cholesterol-binding site with the alpha subunit. [38]. Recent cryo-EM studies have provided a structural glimpse on the overall archi-tecture of P4-ATPases [38][39][40][41].…”

Section: P4-atpase Phospholipid Transportersmentioning

confidence: 99%

“…In the case of Drs2p or ATP8A, while orthologs to each other, they have distinct regulatory domains at the C-termini. In yeast Drs2p, the C-terminus has an autoinhibitory effect on ATPase activity; 4 however, the human ATP8A2 mediates a regulation mode where the regulatory domain keeps the N and A domains apart in the E2P state (Fig 1C) [38,43]. Such differential regulation may be attributed to the binding of different beta subunits.…”

Section: P4-atpase Phospholipid Transportersmentioning

confidence: 99%

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Transporters Beam Signals from Cell Membranes

Ristovski¹,

Farhat²,

Bancud³

et al. 2021

Preprint

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Lipid composition in the cellular membranes plays an important role in maintaining the struc-tural integrity of cells and in regulating cellular signaling that controls functions of both mem-brane-anchored and cytoplasmic proteins. ATP-dependent ABC and P4-ATPase lipid transport-ers, two integral membrane proteins, are known to contribute to lipid translocation across the li-pid bilayers on the cellular membranes. In this review, we will highlight current knowledge about the role of cholesterol and phospholipids of cellular membrane in regulating cell signaling and how lipid transporters participate this process.

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Section: P4-atpase Phospholipid Transportersmentioning

confidence: 99%

Section: P4-atpase Phospholipid Transportersmentioning

confidence: 99%

Transporters Beam Signals from Cell Membranes

Ristovski¹,

Farhat²,

Bancud³

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

“…The P-type ATPase, located on the plasma membrane, promotes the metal e ux system through hydrolysis (Arguello et al 2011). It transfers substrates from the outside of the cell or the peripheral cytoplasm to the cytoplasm, as well as from the cytoplasm to the extracellular or peripheral cytoplasm through P-type ATPases (Hiraizumi et al 2019). Simultaneously, owing to the stimulating effects of sulfhydryl compounds on the metal e ux activity, CPx-type ATPases may also use glutathione to expel metals from the cytoplasm (Meng et al 2015).…”

Section: Introductionmentioning

confidence: 99%

Physiological and Genetic Response Characteristics of Stenotrophomonas Rhizophila JC1 Under Heavy Metal Stress

Sun

Zhang

et al. 2021

Preprint

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In this study, the Cu2+ (120 mg/L) and Cr6+(80 mg/L) removal rate of S. rhizophila JC1 reached at 79.9% and 89.3%, respectively. Scanning electron microscopy showed that Pb2+ and Zn2+ had no obvious effect on cell structure, but the cells became smaller and brighter under Cu2+ stress, and many nanoparticles formed on the cell surface under Cr6+ stress. The physiological response analyses demonstrated that moderate change of membrane permeability was necessary for adsorption. FI-IR and EDS analyses showed that exopolysaccharides (EPS) and the replacement of basic elements (ie., C, O) might be the main means of heavy metals adsorption by strain. In addition, 323 transport proteins were predicted in the genome of S. rhizophila JC1. Among them, two, six and five proteins of the cation diffusion facilitator, resistance-nodulation-division efflux and P-type ATPase families were respectively predicted. The expression of genes showed that the synergistic action of transport proteins played an important role in the process of adsorption. The comparative genomics analysis revealed that S. rhizophila JC1 has long-distance evolutionary relationships with other strains, but the efflux system of S. rhizophila JC1 contained the same types of metal transport proteins as other metal-resistant bacteria.

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Transporter drives the biosorption of heavy metals by Stenotrophomonas rhizophila JC1

Sun

Zhang

et al. 2022

Environ Sci Pollut Res

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Cryo-EM structures capturing the entire transport cycle of the P4-ATPase flippase

Cited by 4 publications

References 57 publications

Transporters Beam Signals from Cell Membranes

Transporters Beam Signals from Cell Membranes

Physiological and Genetic Response Characteristics of Stenotrophomonas Rhizophila JC1 Under Heavy Metal Stress

Transporter drives the biosorption of heavy metals by Stenotrophomonas rhizophila JC1

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