Plasma membrane-localized transporter for aluminum in rice
about
Iron: an essential micronutrient for the legume-rhizobium symbiosisIdentification of a hydrolyzable tannin, oenothein B, as an aluminum-detoxifying ligand in a highly aluminum-resistant tree, Eucalyptus camaldulensis.Coordination between apoplastic and symplastic detoxification confers plant aluminum resistance.Genetic dissection of Al tolerance QTLs in the maize genome by high density SNP scanNatural variation underlies alterations in Nramp aluminum transporter (NRAT1) expression and function that play a key role in rice aluminum tolerance.From laboratory to field: OsNRAMP5-knockdown rice is a promising candidate for Cd phytoremediation in paddy fields.NIP1;2 is a plasma membrane-localized transporter mediating aluminum uptake, translocation, and tolerance in Arabidopsis.Transcriptome Analysis of Al-Induced Genes in Buckwheat (Fagopyrum esculentum Moench) Root Apex: New Insight into Al Toxicity and Resistance Mechanisms in an Al Accumulating Species.The relationship between population structure and aluminum tolerance in cultivated sorghumRegulating cytoplasmic calcium homeostasis can reduce aluminum toxicity in yeast.Genetic architecture of aluminum tolerance in rice (Oryza sativa) determined through genome-wide association analysis and QTL mappingEffect of the down-regulation of the high Grain Protein Content (GPC) genes on the wheat transcriptome during monocarpic senescenceAlleviation of aluminium-induced cell rigidity by overexpression of OsPIN2 in rice roots.AhNRAMP1 iron transporter is involved in iron acquisition in peanut.Lysosome-related organelles as mediators of metal homeostasis.Comparative genome-wide transcriptional analysis of Al-responsive genes reveals novel Al tolerance mechanisms in riceGenome-wide association analysis of aluminum tolerance in cultivated and Tibetan wild barley.Molecular characterization of TaSTOP1 homoeologues and their response to aluminium and proton (H(+)) toxicity in bread wheat (Triticum aestivum L.).Comparative mapping combined with homology-based cloning of the rice genome reveals candidate genes for grain zinc and iron concentration in maize.De Novo Transcriptome Assembly and Identification of Gene Candidates for Rapid Evolution of Soil Al Tolerance in Anthoxanthum odoratum at the Long-Term Park Grass Experiment.Global Transcriptome Analysis Reveals Distinct Aluminum-Tolerance Pathways in the Al-Accumulating Species Hydrangea macrophylla and Marker Identification.Aluminium alleviates manganese toxicity to rice by decreasing root symplastic Mn uptake and reducing availability to shoots of Mn stored in roots.The ins and outs of algal metal transport.The HvNramp5 Transporter Mediates Uptake of Cadmium and Manganese, But Not Iron.Local Transcriptional Control of YUCCA Regulates Auxin Promoted Root-Growth Inhibition in Response to Aluminium Stress in ArabidopsisIsolation and Characterization of an Aluminum-resistant Mutant in Rice.Tonoplast- and plasma membrane-localized aquaporin-family transporters in blue hydrangea sepals of aluminum hyperaccumulating plantAn S-adenosyl Methionine Synthetase (SAMS) Gene from Andropogon virginicus L. Confers Aluminum Stress Tolerance and Facilitates Epigenetic Gene Regulation in Arabidopsis thaliana.Overexpressing OsPIN2 enhances aluminium internalization by elevating vesicular trafficking in rice root apex.The metal transporter SMF-3/DMT-1 mediates aluminum-induced dopamine neuron degeneration.A heavy metal P-type ATPase OsHMA4 prevents copper accumulation in rice grainAlkali-Soluble Pectin Is the Primary Target of Aluminum Immobilization in Root Border Cells of Pea (Pisum sativum)Conserved methionine dictates substrate preference in Nramp-family divalent metal transporters.Association Mapping for Aluminum Tolerance in a Core Collection of Rice LandracesUsing membrane transporters to improve crops for sustainable food production.New insights into aluminum tolerance in rice: the ASR5 protein binds the STAR1 promoter and other aluminum-responsive genes.Mn-euvering manganese: the role of transporter gene family members in manganese uptake and mobilization in plants.Aluminium speciation and internal detoxification mechanisms in plants: where do we stand?The role of aluminum sensing and signaling in plant aluminum resistance.The roles of STOP1-like transcription factors in aluminum and proton tolerance
P2860
Q26864432-31F4EE80-EF20-4574-AC06-A2E8FF881001Q30724956-E46C41E7-CC51-4072-853B-255FEEBF6E40Q33356021-85BCA1E1-C7B5-4795-A604-E3B73866DF3CQ33557352-4997932F-FC2E-4648-A0E9-3DC16FB9EB1EQ33674119-B79209B6-C3F0-4746-85A3-15B915D3D637Q33716974-B1C07DC4-2918-41DB-9717-4D3A4D0883D7Q33719324-7A65E8F4-1977-4DA9-BA32-87B5CE0D046AQ33843262-57BB013D-64C7-467F-8CCF-93C2B443EBD5Q33939298-FF694541-438C-4AD2-9EB6-8A8E26383842Q33941185-34F647FD-7115-435A-89C3-CFAFF73904FAQ33987602-6DFE468C-7A03-4918-B3B7-3ABFF017489CQ34043872-52110CC7-83A3-4673-BC1C-CE625B664F86Q34149430-6DFE65D0-DDA2-4378-92A5-6B84D81D51DAQ34275744-5471B73F-46E0-4671-8ECC-7D09BE094ACBQ34317286-B1759D97-F050-4F2D-80B6-3904A2844008Q34461072-2468C61D-BCD6-4777-8E05-F1105B80606DQ34903849-4DB38F6B-6622-45B3-887D-A27D23726D16Q34986796-0E7FE570-624B-402E-B25B-F4953DCADAEFQ35225624-6FABA478-44BE-4F6B-A25B-CAFB18E4A881Q35684303-08CD2818-D669-4062-B4BF-19A26D76B3F1Q35867434-EA19732C-2824-43BA-803B-EB2DA2BD8214Q35881628-5DFCB73E-EAAA-43BC-A918-6AC4DE0B186AQ36129611-6D26F7D3-0862-4E22-85BA-7D224F4DAAECQ36130897-E8261ECA-2BA8-483C-8E41-1BF759226BB4Q36157610-FF8C5EA6-8AB5-4C8D-9D49-9EBEAC37429DQ36190609-DC1EC78F-4B57-4245-A87E-86A26148971AQ36198483-0C4476F1-A6A2-44EA-B185-340C0CD42FBEQ36201746-5270C321-94E1-4E29-93AA-8176CD12ECEFQ36216920-147327AE-A78D-4B7D-BF2D-31C4853DAE8BQ37052315-9E1E0447-4721-434E-97CE-0FEDB1C91887Q37085499-EBA4C00F-1254-4C58-AB43-0BACDB242886Q37250346-8011CDF3-80C9-4835-8556-0FA79004DB65Q37264272-81F74560-7DBB-45F3-8229-17C376E74FA9Q37306436-A2070778-6781-413D-A384-03EE5BB97DDBQ37637051-1A31AEFD-6455-4FFB-ACBB-25CE1782D5B9Q37680672-34BDEEAC-7183-4EDE-87A1-4A40FB398347Q37689505-FAB98B8C-3BC4-4822-A97D-7132A305602FQ38159478-0C8B4443-86BA-40F8-99C4-6DF659EB4CCBQ38177910-430A4301-056A-4B50-AF86-AE44006F77E2Q38675202-A242D3BB-B946-42DB-96FD-A9F75C5C399F
P2860
Plasma membrane-localized transporter for aluminum in rice
description
2010 nî lūn-bûn
@nan
2010 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Plasma membrane-localized transporter for aluminum in rice
@ast
Plasma membrane-localized transporter for aluminum in rice
@en
Plasma membrane-localized transporter for aluminum in rice
@nl
type
label
Plasma membrane-localized transporter for aluminum in rice
@ast
Plasma membrane-localized transporter for aluminum in rice
@en
Plasma membrane-localized transporter for aluminum in rice
@nl
prefLabel
Plasma membrane-localized transporter for aluminum in rice
@ast
Plasma membrane-localized transporter for aluminum in rice
@en
Plasma membrane-localized transporter for aluminum in rice
@nl
P2860
P356
P1476
Plasma membrane-localized transporter for aluminum in rice
@en
P2093
Jian Feng Ma
Tomonari Kasai
P2860
P304
18381-18385
P356
10.1073/PNAS.1004949107
P407
P577
2010-10-11T00:00:00Z