Aminophospholipid Translocase
Mostrando 1-12 de 12 artigos, teses e dissertações.
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1. Characterization of the effect of an aminophospholipid (APLT) from Leishmania (Leishmania) amazonensis on phosphatidylserine exposure. / Caracterização do efeito de uma translocase de aminofosfolipídio (APLT) de Leishmania (Leishmania) amazonensis na exposição de fosfatidilserina.
O mecanismo responsável pela exposição da fosfatidilserina (PS) nas membranas celulares não está bem definido. Uma atividade dependente de ATP está envolvida, provavelmente uma ATPase tipo-P. ATPases tipo P são uma família de proteínas transmembranares envolvidas no transporte de metais, íons e fosfolipídios através da membrana plasmática. As P4
Publicado em: 2010
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2. Chilling Tolerance in Arabidopsis Involves ALA1, a Member of a New Family of Putative Aminophospholipid Translocases
The lipid composition of membranes is a key determinant for cold tolerance, and enzymes that modify membrane structure seem to be important for low-temperature acclimation. We have characterized ALA1 (for aminophospholipid ATPase1), a novel P-type ATPase in Arabidopsis that belongs to the gene family ALA1 to ALA11. The deduced amino acid sequence of ALA1 is
American Society of Plant Physiologists.
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3. Reconstitution of ATP-dependent aminophospholipid translocation in proteoliposomes.
In addition to ion-pumping ATPases, most plasma membranes of animal cells contain a Mg2+ ATPase activity, the function of which is unknown. This enzyme, of apparent molecular mass 110 kDa, was purified from human erythrocyte membranes by a series of column chromatographic procedures after solubilization in Triton X-100. When reincorporated into artificial bi
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4. PDE1 Encodes a P-Type ATPase Involved in Appressorium-Mediated Plant Infection by the Rice Blast Fungus Magnaporthe grisea
Plant infection by the rice blast fungus Magnaporthe grisea is brought about by the action of specialized infection cells called appressoria. These infection cells generate enormous turgor pressure, which is translated into an invasive force that allows a narrow penetration hypha to breach the plant cuticle. The Magnaporthe pde1 mutant was identified previou
American Society of Plant Biologists.
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5. Transbilayer mobility and distribution of red cell phospholipids during storage.
We studied phospholipid topology and transbilayer mobility in red cells during blood storage. The distribution of phospholipids was determined by measuring the reactivity of phosphatidylethanolamine with fluorescamine and the degradation of phospholipids by phospholipase A2 and sphingomyelinase C. Phospholipid mobility was measured by determining transbilaye
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6. Drs2p-coupled aminophospholipid translocase activity in yeast Golgi membranes and relationship to in vivo function
Aminophospholipid translocases (APLTs) are defined primarily by their ability to flip fluorescent or spin-labeled derivatives of phosphatidylserine (PS) and phosphatidylethanolamine (PE) from the external leaflet of a membrane bilayer to the cytosolic leaflet and are thought to establish phospholipid asymmetry in biological membranes. The identities of APLTs
National Academy of Sciences.
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7. Molecular Interactions of Yeast Neo1p, an Essential Member of the Drs2 Family of Aminophospholipid Translocases, and Its Role in Membrane Trafficking within the Endomembrane System
Neo1p is an essential yeast member of the highly conserved Drs2 family of P-type ATPases with proposed aminophospholipid translocase activity. Here we present evidence that Neo1p localizes to endosomes and Golgi elements. In agreement with that finding, the temperature-sensitive neo1-37 and neo1-69 mutants exhibit defects in receptor-mediated endocytosis, va
American Society for Microbiology.
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8. Mechanism of cardiac Na(+)-Ca2+ exchange current stimulation by MgATP: possible involvement of aminophospholipid translocase.
1. The sensitivity of outward Na(+)-Ca2+ exchange current to charged amphiphiles and phospholipids was tested in giant excised inside-out membrane patches from guinea-pig and rabbit myocytes. 2. Screening of membrane surface potentials with dimethonium (10 mM), spermine (200 microM) and spermidine (100 microM) was without effect, while the positively charged
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9. Requirement for Neo1p in Retrograde Transport from the Golgi Complex to the Endoplasmic Reticulum
Neo1p from Saccharomyces cerevisiae is an essential P-type ATPase and potential aminophospholipid translocase (flippase) in the Drs2p family. We have previously implicated Drs2p in protein transport steps in the late secretory pathway requiring ADP-ribosylation factor (ARF) and clathrin. Here, we present evidence that epitope-tagged Neo1p localizes to the en
The American Society for Cell Biology.
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10. Drs2p-related P-type ATPases Dnf1p and Dnf2p Are Required for Phospholipid Translocation across the Yeast Plasma Membrane and Serve a Role in Endocytosis
Plasma membranes in eukaryotic cells display asymmetric lipid distributions with aminophospholipids concentrated in the inner and sphingolipids in the outer leaflet. This asymmetry is maintained by ATP-driven lipid transporters whose identities are unknown. The yeast plasma membrane contains two P-type ATPases, Dnf1p and Dnf2p, with structural similarity to
The American Society for Cell Biology.
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11. Cdc50p, a Protein Required for Polarized Growth, Associates with the Drs2p P-Type ATPase Implicated in Phospholipid Translocation in Saccharomyces cerevisiae
Cdc50p, a transmembrane protein localized to the late endosome, is required for polarized cell growth in yeast. Genetic studies suggest that CDC50 performs a function similar to DRS2, which encodes a P-type ATPase of the aminophospholipid translocase (APT) subfamily. At low temperatures, drs2Δ mutant cells exhibited depolarization of cortical actin patches
The American Society for Cell Biology.
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12. Effects of some metal-ATP complexes on Na(+)-Ca2+ exchange in internally dialysed squid axons.
1. Na(+)o-dependent Ca2+ efflux (forward Na(+)-Ca2+ exchange), and in some cases the Na(+)i-dependent Ca2+ influx (reverse Na(+)-Ca2+ exchange) were measured in internally dialysed squid axons under membrane potential control. 2. We tested the effect on the Na(+)-Ca2+ exchange of the MgATP analogue bidentate chromium adenosine-5'-triphosphate (CrATP), substr