about
Overexpression of a pH-sensitive nitrate transporter in rice increases crop yieldsPotassium channels in barley: cloning, functional characterization and expression analyses in relation to leaf growth and development.Plant homologs of the Plasmodium falciparum chloroquine-resistance transporter, PfCRT, are required for glutathione homeostasis and stress responsesIdentification and functional assay of the interaction motifs in the partner protein OsNAR2.1 of the two-component system for high-affinity nitrate transport.The role of nodes in arsenic storage and distribution in rice.Neglecting legumes has compromised human health and sustainable food production.Knock-Down of a Tonoplast Localized Low-Affinity Nitrate Transporter OsNPF7.2 Affects Rice Growth under High Nitrate Supply.Biofortification of wheat grain with iron and zinc: integrating novel genomic resources and knowledge from model cropsAre root exudates more important than other sources of rhizodeposits in structuring rhizosphere bacterial communities?Physiological and molecular responses in tomato under different forms of N nutrition.OsCHX14 is Involved in the K+ Homeostasis in Rice (Oryza sativa) Flowers.Water supply and not nitrate concentration determines primary root growth in Arabidopsis.Multilevel analysis of primary metabolism provides new insights into the role of potassium nutrition for glycolysis and nitrogen assimilation in Arabidopsis roots.Long- and short-term effects of boron excess to root form and function in two tomato genotypes.Rice OsNAR2.1 interacts with OsNRT2.1, OsNRT2.2 and OsNRT2.3a nitrate transporters to provide uptake over high and low concentration ranges.Deciphering the molecular basis of ammonium uptake and transport in maritime pine.A two-component high-affinity nitrate uptake system in barley.Interplay of Plasma Membrane and Vacuolar Ion Channels, Together with BAK1, Elicits Rapid Cytosolic Calcium Elevations in Arabidopsis during Aphid Feeding.Rice nitrate transporter OsNPF2.4 functions in low-affinity acquisition and long-distance transport.The Arabidopsis nitrate transporter NRT2.4 plays a double role in roots and shoots of nitrogen-starved plants.Improving zinc accumulation in cereal endosperm using HvMTP1, a transition metal transporter.Methylated arsenic species in plants originate from soil microorganisms.Characterization of a two-component high-affinity nitrate uptake system in Arabidopsis. Physiology and protein-protein interaction.Differential regulation of the Chlamydomonas Nar1 gene family by carbon and nitrogen.Glutamine transport and feedback regulation of nitrate reductase activity in barley roots leads to changes in cytosolic nitrate pools.Phenotyping two tomato genotypes with different nitrogen use efficiency.Early responses of resistant and susceptible potato roots during invasion by the potato cyst nematode Globodera rostochiensis.Effect of nitrogen supply form on the invasion of rice roots by the root-knot nematode, Meloidogyne graminicolaSpatial expression and regulation of rice high-affinity nitrate transporters by nitrogen and carbon statusElectrophysiological characterization of pathways for K+uptake into growing and non-growing leaf cells of barleyExtracellular Ca2+ ameliorates NaCl-induced K+ loss from Arabidopsis root and leaf cells by controlling plasma membrane K+ -permeable channelsLight-dark changes in cytosolic nitrate pools depend on nitrate reductase activity in Arabidopsis leaf cellsSingle-cell measurements of the contributions of cytosolic Na(+) and K(+) to salt toleranceThe role of plant species and soil condition in the structural development of the rhizosphere.Overexpression of the High-Affinity Nitrate Transporter OsNRT2.3b Driven by Different Promoters in Barley Improves Yield and Nutrient Uptake BalanceA wheat transcription factor positively sets seed vigour by regulating the grain nitrate signalThe C-type ATP-Binding Cassette Transporter OsABCC7 Is Involved in the Root-to-Shoot Translocation of Arsenic in Rice
P50
Q28831286-BCA76820-2FF0-4E19-9EE6-70EF7021311DQ33493572-95BE2249-79AE-4129-9C4C-C3EAF839E596Q33719930-0CD14928-90D6-47CB-B8CB-A9565A122357Q34516625-F42B4B85-FA78-427C-BDED-F15C0AE4E16EQ35759670-2B1D6F27-0EEF-4F2D-B88E-2019765C64DEQ36285987-0547E93B-C2F4-46BB-8D67-B57ADE9C65F0Q37363729-51CCEB30-4363-4321-A661-DF87EA3416D4Q37595949-AA8EEF88-D33D-4CD9-9692-282B8ABA1843Q37725127-863BAF67-5F9A-4D97-B180-1588C04181CFQ38759956-C3A00B13-1414-4208-B173-C0CB5DF87A4BQ39141507-6E8FAD54-BA74-4EEF-8655-78544D1F058EQ42490599-0E233897-9BDB-4AA4-9F6E-75B419271A2CQ46061178-7B61D423-C9E2-4C5B-B77C-920019C7EA2DQ46490316-AC954D2D-3BF6-4641-A3B9-4F75DF4F58FFQ46492038-7F807811-7671-48C1-9256-6B5D952D83E6Q47354524-1FC1A41D-D06B-4D96-81B2-2287D7962794Q48154165-0D0C9C6A-7096-40E1-BEE2-1A45E6FA2E67Q48354991-D351FF69-77A9-468B-A12A-450E219EE0F1Q48592388-687F6DB7-2345-4C36-BD03-4BB8DE081647Q48657715-24253038-715F-4EDD-806A-1CC3DEB377FFQ49387719-BB604545-0709-4CF2-BA8B-3635A09D40EBQ50522394-884CD798-822A-48BB-A608-0F5129101EB5Q50644147-C59B5D99-14A7-4387-9AFF-D53625445398Q50646075-8693FA29-DCA4-4445-A590-0905CA04DB12Q51244812-D49AB9CE-699F-4B54-AB5E-CC0482F9368EQ53076280-538BF470-565F-4A4A-B3B3-DD83F4185309Q53904557-C65319ED-4575-47C2-AD3B-79FBA201A737Q58166137-8761F548-9FE9-48F7-A32A-D5142ED2A456Q58166219-DB49D1C9-E9B7-4620-9A1C-E214C34D4A5DQ58166263-29BF0D60-69DA-475F-B37D-58E521BF5425Q58166371-3F8B5893-2848-4926-97F9-8C746752E1F4Q58166411-32D81FBC-79AA-4F0D-9C39-8C29F8BE6A3AQ58166458-DFAB604D-5EAE-4300-8C8B-48DC77B9ADD7Q64885939-42FD8185-08E0-4AC0-82D6-44DC2031E722Q89783345-732FE563-087F-4ED5-96E7-B2AB6B3DC0BDQ90458980-AD426CBA-8590-42C5-A708-4543E0D1B401Q91558081-12CF2649-CF00-4D3D-BE96-DFA061FAEB26
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Anthony J Miller
@ast
Anthony J Miller
@en
Anthony J Miller
@es
Anthony J Miller
@nl
Anthony J Miller
@sl
type
label
Anthony J Miller
@ast
Anthony J Miller
@en
Anthony J Miller
@es
Anthony J Miller
@nl
Anthony J Miller
@sl
prefLabel
Anthony J Miller
@ast
Anthony J Miller
@en
Anthony J Miller
@es
Anthony J Miller
@nl
Anthony J Miller
@sl
P106
P21
P31
P496
0000-0003-0572-7607
P569
2000-01-01T00:00:00Z