about
Functional complementation of yeast cytosolic pyrophosphatase by bacterial and plant H+-translocating pyrophosphatasesP4-ATPases: lipid flippases in cell membranesLoss of the Arabidopsis thaliana P4-ATPases ALA6 and ALA7 impairs pollen fitness and alters the pollen tube plasma membraneA thermostable K(+)-stimulated vacuolar-type pyrophosphatase from the hyperthermophilic bacterium Thermotoga maritima.A high-yield co-expression system for the purification of an intact Drs2p-Cdc50p lipid flippase complex, critically dependent on and stabilized by phosphatidylinositol-4-phosphate.Enzymatic systems of inorganic pyrophosphate bioenergetics in photosynthetic and heterotrophic protists: remnants or metabolic cornerstones?Role of post-translational modifications at the β-subunit ectodomain in complex association with a promiscuous plant P4-ATPasePumping lipids with P4-ATPases.Structure and mechanism of ATP-dependent phospholipid transporters.Heterologous expression and purification of membrane-bound pyrophosphatases.Differential regulation of soluble and membrane-bound inorganic pyrophosphatases in the photosynthetic bacterium Rhodospirillum rubrum provides insights into pyrophosphate-based stress bioenergetics.The Arabidopsis P4-ATPase ALA3 localizes to the golgi and requires a beta-subunit to function in lipid translocation and secretory vesicle formation.Phospholipid flipping involves a central cavity in P4 ATPases.Transient Expression of P-type ATPases in Tobacco Epidermal Cells.Cell-Based Lipid Flippase Assay Employing Fluorescent Lipid Derivatives.The wheat ABC transporter Lr34 modifies the lipid environment at the plasma membraneThe lipid head group is the key element for substrate recognition by the P4 ATPase ALA2: a phosphatidylserine flippaseECA3, a Golgi-localized P2A-type ATPase, plays a crucial role in manganese nutrition in ArabidopsisRoles of plasma membrane proton ATPases AHA2 and AHA7 in normal growth of roots and root hairs in Arabidopsis thalianaThe P5A ATPase Spf1p is stimulated by phosphatidylinositol 4-phosphate and influences cellular sterol homeostasisEvolution and a revised nomenclature of P4 ATPases, a eukaryotic family of lipid flippasesCatch You on the Flip Side: A Critical Review of Flippase Mutant PhenotypesMutation of a bHLH transcription factor allowed almond domestication
P50
Q24541466-440B87D1-759B-4166-AAB4-75C87CD938CEQ28388229-E2D03A0A-5249-49C5-A21C-666973CA8F00Q30642233-F05BBEEE-56F1-430F-8FDE-AD6816D07C58Q33946010-657DC705-C747-4E17-AF5D-4EBEC479BF66Q34505721-20291625-E455-4613-916A-615897F994ACQ34512491-5E8E0F4F-023D-4CBD-BB0A-D93AA667F3D1Q36955068-059C75CE-9461-4B6C-B342-D3EC8287F3A1Q37824863-FDF300B2-556C-4E15-AA45-FEFEBCC0F5FDQ38205647-C95BAD81-8F47-4E60-87B1-5F306CC3D79AQ39127341-55180AC0-EFE8-4496-B081-3BB5BA82BE82Q39247202-D285D20E-B83B-4AED-82B0-C072886F666FQ46085133-0C1593D8-3663-4C84-88EC-9A92A7C79080Q47161757-12D5E3D0-6272-4165-8317-AB336A788707Q51596207-7472CCC6-41C6-4F2B-B562-3D0A68AE7657Q53235049-2ADC5FA3-22BA-4550-BD77-6CFE79378550Q57458042-254D8063-FB37-4EB2-B3FB-D037078DFDF1Q64055457-878234BC-8319-4A18-8F4F-0A3C7E9F7F1CQ79909781-0C12F7E8-5A49-48C1-AD52-E194E74C5C27Q91612038-4E95913C-D90D-44A1-A478-BD1BCA7C9B01Q91747534-3A9FBC62-F94C-4B25-939F-88678A49DFB5Q91891393-4CDBB98E-822C-4784-81D0-D101092C2A02Q92456289-6C5DF39B-DD9A-4435-A503-07E5438F2239Q92732723-E2EA6177-492F-4C62-9017-63267792572B
P50
description
researcher
@en
name
R L López-Marqués
@en
R L López-Marqués
@nl
type
label
R L López-Marqués
@en
R L López-Marqués
@nl
prefLabel
R L López-Marqués
@en
R L López-Marqués
@nl
P106
P31
P496
0000-0002-5663-7903