about
Solution structure of the phytotoxic protein PcF: The first characterized member of thePhytophthoraPcF toxin familyPotassium and carrot embryogenesis: are K+ channels necessary for development?Sucrose- and H-dependent charge movements associated with the gating of sucrose transporter ZmSUT1Naringenin Impairs Two-Pore Channel 2 Activity And Inhibits VEGF-Induced Angiogenesis.The temperature-signaling cascade in sponges involves a heat-gated cation channel, abscisic acid, and cyclic ADP-ribose.Fast and slow activation of voltage-dependent ion channels in radish vacuoles.The human two-pore channel 1 is modulated by cytosolic and luminal calcium.Modulation of plant ion channels by oxidizing and reducing agents.Osmoregulated Chloride Currents in Hemocytes from Mytilus galloprovincialis.A perspective on the slow vacuolar channel in vacuoles from higher plant cells.The putative K(+) channel subunit AtKCO3 forms stable dimers in Arabidopsis.AtTPK4, an Arabidopsis tandem-pore K+ channel, poised to control the pollen membrane voltage in a pH- and Ca2+-dependent mannerConformational changes represent the rate-limiting step in the transport cycle of maize sucrose transporter1.Electron current recordings in living cells.The signaling lipid phosphatidylinositol-3,5-bisphosphate targets plant CLC-a anion/H+ exchange activity.Response to cytosolic nickel of Slow Vacuolar channels in the hyperaccumulator plant Alyssum bertolonii.ABA- and cADPR-mediated effects on respiration and filtration downstream of the temperature-signaling cascade in sponges.Chloride channels activated by hypotonicity in N2A neuroblastoma cell line.Modulation of plant TPC channels by polyunsaturated fatty acids.Effects of cytoplasmic Mg2+ on slowly activating channels in isolated vacuoles of Beta vulgaris.The phytotoxic lipodepsipeptide syringopeptin 25A from Pseudomonas syringae pv syringae forms ion channels in sugar beet vacuoles.The Arabidopsis central vacuole as an expression system for intracellular transporters: functional characterization of the Cl-/H+ exchanger CLC-7.Fluorescence combined with excised patch: measuring calcium currents in plant cation channels.Phloem-localized, proton-coupled sucrose carrier ZmSUT1 mediates sucrose efflux under the control of the sucrose gradient and the proton motive force.How are cytochrome b561 electron currents controlled by membrane voltage and substrate availability?Patch-clamp recordings in isolated sponge cells (Axinella polypoides).Direct Recording of Trans-Plasma Membrane Electron Currents Mediated by a Member of the Cytochrome b561 Family of Soybean.Identification of mutations allowing Natural Resistance Associated Macrophage Proteins (NRAMP) to discriminate against cadmium.KDC1, a carrot Shaker-like potassium channel, reveals its role as a silent regulatory subunit when expressed in plant cells.The phosphoinositide PI(3,5)P₂ mediates activation of mammalian but not plant TPC proteins: functional expression of endolysosomal channels in yeast and plant cells.Modulation of calcium and potassium permeation in plant TPC channels.Using the plant vacuole as a biological system to investigate the functional properties of exogenous channels and transporters.Cold transiently activates calcium-permeable channels in Arabidopsis mesophyll cellsUnderstanding the Molecular Basis of Salt Sequestration in Epidermal Bladder Cells of Chenopodium quinoaIon channels in the vacuoles of the seagrass Posidonia oceanicaRedox agents regulate ion channel activity in vacuoles from higher plant cellsPlant K(in) and K(out) channels: approaching the trait of opposite rectification by analyzing more than 250 KAT1-SKOR chimeras
P50
Q27646305-174FB892-70A6-4B91-A915-16AA1F115880Q33340673-89E3ECBC-BC51-4ADB-8540-3946458F81D2Q33691642-93E15616-4CE0-492A-8E11-57D9DA072053Q33894915-CE5F94E0-0110-4771-A8A7-40C63780C9E0Q33952699-78EDF112-132C-4114-930B-4DA8F08C65B3Q34019965-AFA89BD8-96A1-4104-AD89-6631BE3E7813Q34552502-3A2CE199-8A70-4236-9FD4-7326E51E70FBQ35998138-656063B6-F858-458F-A837-25AE8E68CFF1Q36218367-5012B2BC-036F-4B30-8439-9BB6F48AB667Q36322883-AA6C40F7-E46A-4E31-B13C-8D057EDC7697Q36390861-91CF1EFA-1160-41E3-93A9-58A3C93E5F42Q37595535-C32D1CE3-87FB-4C10-AF3D-C4BF0126EA40Q38313256-C6E48FF8-0D47-47CE-A1BF-C55143F8FEF8Q38677725-9886E62D-410E-450D-835F-12ADD7BE9756Q38768292-93CFF750-0FBA-4B63-8100-464DF9A06720Q39308558-B3B0A9CD-D4D1-496B-9E92-5846F390BF24Q39633193-73481400-D3D9-47AF-A564-D2D805D4AD4BQ40976130-CCEA547A-5B0E-424D-ACCB-AE273AA3A12EQ41816845-955D41B5-9B25-4572-8312-69B7A2C3F27DQ43708001-E0297FF0-AE98-491E-8879-CA704FA98D5EQ44104391-174E70E9-9EC0-42AF-BF72-454FB7981005Q45529599-7D0BAEBD-E220-4110-A473-5170C6442797Q46207419-9AC855D4-BA45-49CD-95AC-7737734270D9Q46417427-7AC3111F-6064-423A-9AE1-8DD1E2F2C363Q47072699-5D47CAB2-5E94-464E-8CAB-1856C8C0B5ABQ47404418-117315C2-5A82-4D48-A817-3BF26AC6FF4CQ48145539-F4E2040F-0C3D-414E-B69D-56AF1ED9418FQ48575916-272F0B80-C253-402E-825C-AB13B70D73A9Q48774757-D140A3C1-6DFA-40AC-AF96-4FD49688863CQ50457154-0737EE12-838E-452F-AA08-C71237036C3EQ51746941-BD870F9B-2A12-4235-8822-2E91487AC1E2Q53328687-7E6896DE-A02B-4AF9-A0F7-1E86011AAC17Q56027443-10037B79-5FFA-4765-92A0-3FFB9F5790FDQ57294015-8ECE63A1-4EF4-4532-A9F8-A63EFE447E6CQ73588370-05EF9368-FEF7-4CD0-A5BD-C475940E8DDEQ77937596-8AF0595D-B73E-410C-81A7-07B3EAF2B8E0Q81748022-F3D092CA-28A7-4363-B4D1-46B70BC49C4F
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Armando Carpaneto
@ast
Armando Carpaneto
@en
Armando Carpaneto
@es
Armando Carpaneto
@nl
Armando Carpaneto
@sl
type
label
Armando Carpaneto
@ast
Armando Carpaneto
@en
Armando Carpaneto
@es
Armando Carpaneto
@nl
Armando Carpaneto
@sl
prefLabel
Armando Carpaneto
@ast
Armando Carpaneto
@en
Armando Carpaneto
@es
Armando Carpaneto
@nl
Armando Carpaneto
@sl
P106
P1153
6603344788
P21
P31
P496
0000-0002-5060-3657
P569
2000-01-01T00:00:00Z