LHT1, a lysine- and histidine-specific amino acid transporter in arabidopsis.
about
Role of proline in cell wall synthesis and plant development and its implications in plant ontogenyCarrier-mediated uptake and phloem systemy of a 350-Dalton chlorinated xenobiotic with an alpha-amino acid functionANT1, an aromatic and neutral amino acid transporter in ArabidopsisTranscriptomic Analysis of Responses to Imbalanced Carbon: Nitrogen Availabilities in Rice SeedlingsUV-responsive genes of arabidopsis revealed by similarity to the Gcn4-mediated UV response in yeast.A mutation in amino acid permease AAP6 reduces the amino acid content of the Arabidopsis sieve elements but leaves aphid herbivores unaffected.Validation of QTL mapping and transcriptome profiling for identification of candidate genes associated with nitrogen stress tolerance in sorghum.Different and overlapping functions of Arabidopsis LHT6 and AAP1 transporters in root amino acid uptake.Histidine biosynthesis.Genome-wide survey and expression analysis of amino acid transporter gene family in rice (Oryza sativa L.).Is transcriptomic regulation of berry development more important at night than during the day?Identification of differentially expressed genes between sorghum genotypes with contrasting nitrogen stress tolerance by genome-wide transcriptional profilingGenes and proteins for solute transport and sensingMapping QTLs and association of differentially expressed gene transcripts for multiple agronomic traits under different nitrogen levels in sorghum.Molecular Evolution of Plant AAP and LHT Amino Acid Transporters.Genome-Wide analysis of the AAAP gene family in moso bamboo (Phyllostachys edulis).Transporters for uptake and allocation of organic nitrogen compounds in plants.Topology of NAT2, a prototypical example of a new family of amino acid transporters.The AAP gene family for amino acid permeases contributes to development of the cyst nematode Heterodera schachtii in roots of Arabidopsis.Isolation and characterization of LHT-type plant amino acid transporter gene from Panax ginseng Meyer.Draft genome sequence of an inbred line of Chenopodium quinoa, an allotetraploid crop with great environmental adaptability and outstanding nutritional propertiesNew insights into the regulation of plant immunity by amino acid metabolic pathways.A Transcriptomic Comparison of Two Bambara Groundnut Landraces under Dehydration Stress.Accumulation and Transport of 1-Aminocyclopropane-1-Carboxylic Acid (ACC) in Plants: Current Status, Considerations for Future Research and Agronomic Applications.Fungal and plant gene expression in the Tulasnella calospora-Serapias vomeracea symbiosis provides clues about nitrogen pathways in orchid mycorrhizas.Plant acquisition of organic nitrogen in boreal forests.Hydroxymethylated phyllobilins: a puzzling new feature of the dioxobilin branch of chlorophyll breakdown.Functional characterization and expression analysis of the amino acid permease RcAAP3 from castor bean.S-methylmethionine plays a major role in phloem sulfur transport and is synthesized by a novel type of methyltransferase.Amino acid homeostasis modulates salicylic acid-associated redox status and defense responses in Arabidopsis.cDNA microarray analysis of gene expression during Fe-deficiency stress in barley suggests that polar transport of vesicles is implicated in phytosiderophore secretion in Fe-deficient barley roots.Arabidopsis SOMATIC EMBRYOGENESIS RECEPTOR KINASES1 and 2 are essential for tapetum development and microspore maturation.Source and sink mechanisms of nitrogen transport and use.LeProT1, a transporter for proline, glycine betaine, and gamma-amino butyric acid in tomato pollen.Proteomic Analysis of Isogenic Rice Reveals Proteins Correlated with Aroma Compound Biosynthesis at Different Developmental Stages.Arabidopsis LHT1 is a high-affinity transporter for cellular amino acid uptake in both root epidermis and leaf mesophyll.Genetic dissection of histidine biosynthesis in Arabidopsis.Genetic identification of ACC-RESISTANT2 reveals involvement of LYSINE HISTIDINE TRANSPORTER1 in the uptake of 1-aminocyclopropane-1-carboxylic acid in Arabidopsis thaliana.Transporters for ammonium, amino acids and peptides are expressed in pitchers of the carnivorous plantNepenthesLjLHT1.2—a mycorrhiza-inducible plant amino acid transporter from Lotus japonicus
P2860
Q26800108-6C1481E3-0C03-4E32-81FD-067552DA9F9BQ28362369-3E228F6E-4501-4A8C-9EA5-E818968B2642Q28362412-0E500E83-CF2E-48D8-8FE9-09CBF134A871Q28553233-02565E23-B81E-4CD3-9084-423C2AB85E82Q30708321-E35FA02D-5E60-4399-BFE0-7332EE844B1CQ33503516-9BA9395F-1876-4100-AE6E-42A6575170D0Q33893368-18AF44E7-1B12-4CED-ABC5-A81FB0F1E22BQ34149390-892DE5EF-1116-4F6E-8463-2D5C86CA6813Q34251830-2AB59245-E1F6-4832-92BD-4BF686741027Q34482092-584C4341-63AA-4234-AFF1-F95C4E8557C0Q35097603-9E79E4CE-1BCD-448D-9519-6E514FD2E56DQ35111698-677F5CAF-2D0D-45CF-BAD4-C0B1CAD9F355Q35625599-BF951249-966D-4D90-A890-1BE1004232DBQ35892308-E5376838-AE70-4F78-848A-5D9D7608549CQ35970806-9336B4D1-EFEC-4DD5-B92E-F374D67FC157Q36265362-B9B30E26-857C-4D75-BFCA-8F867367C591Q36805342-476667F3-E5FC-4328-A0E1-3299F0C65394Q36891834-8CD5475A-7263-4CF2-BE2D-EA8EDAB6195DQ37080187-8C0D514C-16FF-41DF-BF98-79CE24F432D6Q37283813-05E785CC-7E21-43AA-9092-27D882E7A15FQ37484901-4B22935C-B5B5-4E1F-92AF-867F1701201FQ38101142-B58EFD1B-FC9D-4C00-BB02-8FE1448C06BFQ38728716-831D652B-CEC3-4C3B-87BF-E8AE996A679FQ38760153-44FDC7AD-A52A-44A3-B1CA-3BE72D26ACB2Q38794028-C4C44261-D491-46FD-8F5E-D62DF7E19AB0Q40713963-08CBED1F-4664-4B7B-B213-942A1DFBE263Q41178728-4E44C863-2E81-44A8-B01D-0CD4A0A4B0F7Q42607679-D8CD941D-D7DE-4F65-9014-90305D0BEA60Q42607976-96DED45E-E985-4A45-BFF4-793348DAD483Q42794864-814113C3-25B8-4C41-A1DE-1DE01DA0EC32Q43967578-057EF7FF-D3B4-4360-829C-1C10A0389910Q46100441-5DC64C9D-FC5A-4C4D-914E-A2D4CF4C73D3Q47366327-B0CD99C7-1DA5-44F9-A086-8434C6E7833FQ47981915-041DA2D5-DD8D-4EF0-9DFB-D201E7F184DEQ48092275-34A57EED-278A-49BC-B3CB-758305459E7DQ50724750-0FDEFE8F-620C-48A0-A9DE-51B842D4A17CQ52578452-E0DDEDF7-F97C-4266-B80A-6991148BE505Q52981688-CD5BF71A-46EA-4925-9999-137740D7F642Q56020374-7BFE72EA-896E-49C9-ACD9-E38A57879D47Q56990052-24419632-8022-4361-A94D-CD5C511DCA65
P2860
LHT1, a lysine- and histidine-specific amino acid transporter in arabidopsis.
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
1997年论文
@zh
1997年论文
@zh-cn
name
LHT1, a lysine- and histidine-specific amino acid transporter in arabidopsis.
@en
LHT1, a lysine- and histidine-specific amino acid transporter in arabidopsis.
@nl
type
label
LHT1, a lysine- and histidine-specific amino acid transporter in arabidopsis.
@en
LHT1, a lysine- and histidine-specific amino acid transporter in arabidopsis.
@nl
prefLabel
LHT1, a lysine- and histidine-specific amino acid transporter in arabidopsis.
@en
LHT1, a lysine- and histidine-specific amino acid transporter in arabidopsis.
@nl
P356
P1433
P1476
LHT1, a lysine- and histidine-specific amino acid transporter in arabidopsis
@en
P2093
P304
P356
10.1104/PP.115.3.1127
P407
P577
1997-11-01T00:00:00Z