Basic Information
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CGSNL Gene Symbol
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DMAS1
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Gene Symbol Synonym
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OsDMAS1, OsAKR5, AKR5
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CGSNL Gene Name
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DEOXYMUGINEIC ACID SYNTHASE 1
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Gene Name Synonym
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sativa deoxymugineic acid synthase1, Deoxymugineic acid synthase1, Deoxymugineic acid synthase 1, deoxymugineic acid synthase1, Group 5 Aldo-Keto Reductase
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Protein Name
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DEOXYMUGINEIC ACID SYNTHASE 1
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Allele
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Chromosome No.
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3
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Explanation
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AB269906. AU173810. one of eight members of Group 5 Aldo-Keto Reductase. TO:0006049: iron concentration. TO:0006053: zinc concentration.
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Trait Class
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Vegetative organ - Root
Tolerance and resistance - Stress tolerance
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Expression
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Sequence/Locus
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cDNA Accession No.
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AK073738
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MSU ID
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LOC_Os03g13390.2
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RAP ID
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Os03g0237100
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Links
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Oryzabase Chromosome View
(
IRGSP 1.0
/
Build5
)
RAP-DB
(
IRGSP 1.0
/
Build5
)
Related IDs List (
IRGSP 1.0
/
Build5
)
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INSD Accession List (Test version)
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-
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Map
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Locate(cM)
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Link map
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Classical linkage map
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References
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Chen R., Wang S., Sun Y., Li H., Wan S., Lin F., Xu H.
Int J Mol Sci 2023 24(4)
Comparison of Glyphosate-Degradation Ability of aldo-keto reductase (AKR4) Proteins in Maize, Soybean and Rice.
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Regon P., Dey S., Rehman M., Pradhan A.K., Chowra U., Tanti B., Talukdar A.D., Panda S.K.
Front Plant Sci 2022 13 798580
Transcriptomic Analysis Revealed Reactive Oxygen Species Scavenging Mechanisms Associated With Ferrous Iron Toxicity in Aromatic Keteki Joha Rice.
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Liang G., Zhang H., Li Y., Pu M., Yang Y., Li C., Lu C., Xu P., Yu D.
J Integr Plant Biol 2020 62(5) 668-689
Oryza sativa FER-LIKE FE DEFICIENCY-INDUCED TRANSCRIPTION FACTOR (OsFIT/OsbHLH156) interacts with OsIRO2 to regulate iron homeostasis.
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Wang S., Li L., Ying Y., Wang J., Shao J.F., Yamaji N., Whelan J., Ma J.F., Shou H.
New Phytol. 2020 225(3) 1247-1260
A transcription factor OsbHLH156 regulates Strategy II iron acquisition through localising IRO2 to the nucleus in rice.
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Wang B., Wei H., Xue Z., Zhang W.H.
Ann. Bot. 2017 119(6) 945-956
Gibberellins regulate iron deficiency-response by influencing iron transport and translocation in rice seedlings (Oryza sativa).
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Masuda H., Shimochi E., Hamada T., Senoura T., Kobayashi T., Aung M.S., Ishimaru Y., Ogo Y., Nakanishi H., Nishizawa N.K.
PLoS ONE 2017 12(3) e0173441
A new transgenic rice line exhibiting enhanced ferric iron reduction and phytosiderophore production confers tolerance to low iron availability in calcareous soil.
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Kobayashi T., Itai R.N., Senoura T., Oikawa T., Ishimaru Y., Ueda M., Nakanishi H., Nishizawa N.K.
Plant Mol. Biol. 2016 91(4-5) 533-47
Jasmonate signaling is activated in the very early stages of iron deficiency responses in rice roots.
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Agarwal S., Tripura Venkata VG., Kotla A., Mangrauthia S.K., Neelamraju S.
Gene 2014 546(2) 430-6
Expression patterns of QTL based and other candidate genes in Madhukar × Swarna RILs with contrasting levels of iron and zinc in unpolished rice grains.
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Kobayashi T.a b, Nakanishi Itai R.c, Nishizawa N.K.b
Rice 2014 7
Iron deficiency responses in rice roots
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Yang A., Li Y., Xu Y., Zhang W.H.
J. Exp. Bot. 2013 64(16) 5009-20
A receptor-like protein RMC is involved in regulation of iron acquisition in rice.
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Kobayashi T., Naoko K Nishizawa
Annu Rev Plant Biol 2012 63 131-52
Iron uptake, translocation, and regulation in higher plants.
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Wang L., Ying Y., Narsai R., Ye L., Zheng L., Tian J., Whelan J., Shou H.
Plant Cell Environ. 2012 36(1) 224-36.
Identification of OsbHLH133 as a regulator of iron distribution between roots and shoots in Oryza sativa.
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Nozoye T,Nagasaka S,Kobayashi T,Takahashi M,Sato Y,Sato Y,Uozumi N,Nakanishi H,Nishizawa NK
J. Biol. Chem. 2011 286(7) 5446-54
Phytosiderophore efflux transporters are crucial for iron acquisition in graminaceous plants.
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Kobayashi T,Itai RN,Ogo Y,Kakei Y,Nakanishi H,Takahashi M,Nishizawa NK
Plant J. 2009 60(6) 948-61
The rice transcription factor IDEF1 is essential for the early response to iron deficiency, and induces vegetative expression of late embryogenesis abundant genes.
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Suzuki M, Tsukamoto T, Inoue H, Watanabe S, Matsuhashi S, Takahashi M, Nakanishi H, Mori S, Nishizawa NK.
Plant Mol. Biol. 2008 66(6) 609-17.
Deoxymugineic acid increases Zn translocation in Zn-deficient rice plants.
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Inoue H, Takahashi M, Kobayashi T, Suzuki M, Nakanishi H, Mori S, Nishizawa NK.
Plant Mol. Biol. 2008 66(1-2) 193-203
Identification and localisation of the rice nicotianamine aminotransferase gene OsNAAT1 expression suggests the site of phytosiderophore synthesis in rice.
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Nozoye T, Inoue H, Takahashi M, Ishimaru Y, Nakanishi H, Mori S, Nishizawa NK.
Plant Mol. Biol. 2007 64(1-2) 35-47.
The expression of iron homeostasis-related genes during rice germination.
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Bashir,K., Inoue,H., Nagasaka,S., Takahashi,M., Nakanishi,H., Mori,S. and Nishizawa,N.K.
J. Biol. Chem. 2006 281(43) 32395-32402
Cloning and characterization of deoxymugineic Acid synthase genes from graminaceous plants.
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Kobayashi,T., Suzuki,M., Inoue,H., Itai,R.N., Takahashi,M., Nakanishi,H., Mori,S. and Nishizawa,N.K.
J. Exp. Bot. 2005 56 1305-1316
Expression of iron-acquisition-related genes in iron-deficient rice is co-ordinately induced by partially conserved iron-deficiency-responsive elements
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Nozoye T., Reiko Nakanishi Ita, Nagasaki S., Takahashi M., Nakanishi H., Mori S., Naoko K Nishikawa
Soil Sci Plant Nutr 2004 50(7) 1125-1131
Diurnal Changes in the Expression of Genes That Participate in Phytosiderophore Synthesis in Rice
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TextPresso Search
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Search textpresso for DMAS1
( Recent references may be retrievable, but without any warranty )
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DB Reference
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Gramene ID
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GR:0080053
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Ontologies
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Gene Ontology
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response to iron(II) ion( GO:0010040 )
iron ion transport( GO:0006826 )
oxidoreductase activity( GO:0016491 )
cellular response to iron ion starvation( GO:0010106 )
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Trait Ontology
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iron sensitivity( TO:0000224 )
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Plant Ontology
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companion cell( PO:0000071 )
root cortex( PO:0000258 )
vascular bundle( PO:0005020 )
phloem( PO:0005417 )
parenchyma( PO:0005421 )
exodermis( PO:0005772 )
pericycle( PO:0006203 )
root( PO:0009005 )
root stele( PO:0020124 )
root epidermis( PO:0006036 )
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Related Strains
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Phenotype images
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Last updated
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Jun 28, 2023
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