about
Osmotin is a homolog of mammalian adiponectin and controls apoptosis in yeast through a homolog of mammalian adiponectin receptor.A Single Amino-Acid Substitution in the Sodium Transporter HKT1 Associated with Plant Salt ToleranceThe STT3a subunit isoform of the Arabidopsis oligosaccharyltransferase controls adaptive responses to salt/osmotic stress.Control of vacuolar dynamics and regulation of stomatal aperture by tonoplast potassium uptake.Reconstitution in yeast of the Arabidopsis SOS signaling pathway for Na+ homeostasis.Structural basis of the regulatory mechanism of the plant CIPK family of protein kinases controlling ion homeostasis and abiotic stressActivation of the plasma membrane Na/H antiporter Salt-Overly-Sensitive 1 (SOS1) by phosphorylation of an auto-inhibitory C-terminal domain.A Saccharomyces cerevisiae assay system to investigate ligand/AdipoR1 interactions that lead to cellular signalingIn defense against pathogens. Both plant sentinels and foot soldiers need to know the enemy.A novel thiol-reductase activity of Arabidopsis YUC6 confers drought tolerance independently of auxin biosynthesisAlkali cation exchangers: roles in cellular homeostasis and stress tolerance.How do vacuolar NHX exchangers function in plant salt tolerance?The Salt Overly Sensitive (SOS) pathway: established and emerging roles.Molecular Interactions Between Flowering Time and Abiotic Stress Pathways.Biotechnology of water and salinity stress tolerance.Mutants of the Arabidopsis thaliana cation/H+ antiporter AtNHX1 conferring increased salt tolerance in yeast: the endosome/prevacuolar compartment is a target for salt toxicity.The Na(+)/H(+) exchanger SOS1 controls extrusion and distribution of Na(+) in tomato plants under salinity conditions.Molecular characterization of glyoxalase-I from a higher plant; upregulation by stress.A constitutively active form of a durum wheat Na⁺/H⁺ antiporter SOS1 confers high salt tolerance to transgenic Arabidopsis.The arabidopsis Na+/H+ exchanger AtNHX1 catalyzes low affinity Na+ and K+ transport in reconstituted liposomes.Differential expression and function of Arabidopsis thaliana NHX Na+/H+ antiporters in the salt stress response.An osmotically induced cytosolic Ca2+ transient activates calcineurin signaling to mediate ion homeostasis and salt tolerance of Saccharomyces cerevisiae.Regulation of vacuolar Na+/H+ exchange in Arabidopsis thaliana by the salt-overly-sensitive (SOS) pathway.Transgenic evaluation of activated mutant alleles of SOS2 reveals a critical requirement for its kinase activity and C-terminal regulatory domain for salt tolerance in Arabidopsis thaliana.Inorganic cations mediate plant PR5 protein antifungal activity through fungal Mnn1- and Mnn4-regulated cell surface glycans.Salt stress enhances xylem development and expression of S-adenosyl-L-methionine synthase in lignifying tissues of tomato plants.Release of SOS2 kinase from sequestration with GIGANTEA determines salt tolerance in Arabidopsis.Phosphorylation of SOS3-LIKE CALCIUM BINDING PROTEIN8 by SOS2 protein kinase stabilizes their protein complex and regulates salt tolerance in Arabidopsis.Structural insights on the plant salt-overly-sensitive 1 (SOS1) Na(+)/H(+) antiporter.Regulation of durum wheat Na+/H + exchanger TdSOS1 by phosphorylation.Upstream kinases of plant SnRKs are involved in salt stress tolerance.Pleiotropic effects of enhancing vacuolar K/H exchange in tomato.Osmotin, a plant antifungal protein, subverts signal transduction to enhance fungal cell susceptibility.Functional conservation between yeast and plant endosomal Na(+)/H(+) antiporters.Differential accumulation of S-adenosylmethionine synthetase transcripts in response to salt stress.The CBL-Interacting Protein Kinase CIPK23 Regulates HAK5-Mediated High-Affinity K+ Uptake in Arabidopsis Roots.Fungal cell wall phosphomannans facilitate the toxic activity of a plant PR-5 protein.Loss of halophytism by interference with SOS1 expression.The plasma membrane Na+/H+ antiporter SOS1 is essential for salt tolerance in tomato and affects the partitioning of Na+ between plant organs.Functional characterization of a wheat plasma membrane Na+/H+ antiporter in yeast.
P50
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P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Jose M. Pardo
@ast
Jose M. Pardo
@en
Jose M. Pardo
@es
Jose M. Pardo
@nl
Jose M. Pardo
@sl
type
label
Jose M. Pardo
@ast
Jose M. Pardo
@en
Jose M. Pardo
@es
Jose M. Pardo
@nl
Jose M. Pardo
@sl
prefLabel
Jose M. Pardo
@ast
Jose M. Pardo
@en
Jose M. Pardo
@es
Jose M. Pardo
@nl
Jose M. Pardo
@sl
P108
P1053
B-4652-2009
P106
P1153
7201755168
P21
P2798
P31
P3829
P496
0000-0003-4510-8624