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Searching for LOC_Os11g26760 
[dehydrin, putative, expressed ] |
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| Basic information [Pfam DB] |
Graphical representation of the protein domains |
| S. No. |
Locus Id |
Protein Length |
Doman Start |
Domain End |
Pfam ID |
Domain Name |
| 1 |
LOC_Os11g26760.1 |
165 |
12 |
164 |
PF00257.11 |
Dehydrin |
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The basic information is from RGAP and Pfam/InterPro databases |
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Gene model (download) 
IR64 N22
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Gene Expression
(RNASeq data) in two varieties N22 & IR64 [FC=Fold Change]
| N22 Flag-leaf FC |
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| N22InfloresenceFC |
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| N22 Root FC |
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| IR64 Flag-leaf FC |
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| IR64InfloresenceFC |
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| IR64 Root FC |
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Functional details
Molecular Function
| S. No. |
GO Id |
GO Description |
| 1 |
GO:0003674 |
molecular_function |
(RGAP) |
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Biological process
| S. No. |
GO Id |
GO Description |
| 1 |
GO:0006970 |
response to osmotic stress |
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| 2 |
GO:0009737 |
response to abscisic acid stimulus |
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| 3 |
GO:0009628 |
response to abiotic stimulus |
(RGAP) |
| 4 |
GO:0006950 |
response to stress |
(RGAP) |
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Cellular component
| S. No. |
GO Id |
GO Description |
| 1 |
GO:0005575 |
cellular_component |
(RGAP) |
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Environment details
| S. No. |
EO Id |
EO Description |
Presence(+) or absence(-) of gene expression /activity |
| 1 |
EO:0007048 |
sodium chloride regimen |
(+) |
| 2 |
EO:0007105 |
abscisic acid regimen |
(+) |
| 3 |
EO:0007404 |
drought environment |
(+) |
| 4 |
MCE:1000016 |
polyethylene glycol (PEG) treatment |
(+) |
| 5 |
MCE:1000069 |
dessication/dehydration stress |
(+) |
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Metabolic Pathway details
QTL details
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Plant developmental stage / tissue details
Plant development stage
| S. No. |
PO Id |
PO Description |
Presence(+) or absence(-) of gene expression /activity |
| 1 |
MCP:1000518 |
seedling development stage |
(+) |
Plant tissue/organ
Others
| S. No. |
PO Id |
PO Description |
Presence(+) or absence(-) of gene expression /activity |
| Not found |
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Trait details
Physical interaction details
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Interaction type: protein-protein
Interaction type: protein-DNA
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| Related publications [Sorted by year] |
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| 1 |
Luo Chengke; Guo Chiming; Wang Wujing; Wang Liangjiang; Chen Liang; Overexpression of a new stress-repressive gene OsDSR2 encoding a protein with a DUF966 domain increases salt and simulated drought stress sensitivities and reduces ABA sensitivity in rice. Plant cell reports 2014:33
PMID [24247850]
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| 2 |
Xiong Haiyan; Li Jinjie; Liu Pengli; Duan Junzhi; Zhao Yan; Guo Xiao; Li Yang; Zhang Hongliang; Ali Jauhar; Li Zichao; Overexpression of OsMYB48-1, a novel MYB-related transcription factor, enhances drought and salinity tolerance in rice. PloS one 2014:9
PMID [24667379]
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| 3 |
Chen Hao; Chen Wei; Zhou Junli; He Hang; Chen Liangbi; Chen Haodong; Deng Xing Wang; Basic leucine zipper transcription factor OsbZIP16 positively regulates drought resistance in rice. Plant Science 2012: 193-194
PMID [22794914]
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| 4 |
You Jun; Hu Honghong; Xiong Lizhong; An ornithine δ-aminotransferase gene OsOAT confers drought and oxidative stress tolerance in rice. Plant Science 2012:197
PMID [23116672]
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| 5 |
Li Hao-Wen; Zang Bai-Sheng; Deng Xing-Wang; Wang Xi-Ping; Overexpression of the trehalose-6-phosphate synthase gene OsTPS1 enhances abiotic stress tolerance in rice. Planta 2011:
PMID [21698458]
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| 6 |
Xiang Yong; Tang Ning; Du Hao; Ye Haiyan; Xiong Lizhong; Characterization of OsbZIP23 as a key player of the basic leucine zipper transcription factor family for conferring abscisic acid sensitivity and salinity and drought tolerance in rice. Plant Physiology 2008:148
PMID [18931143]
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| 7 |
Yamaguchi-Shinozaki K; Mundy J; Chua N H; Four tightly linked rab genes are differentially expressed in rice. Plant Molecular Biology 1990:14
PMID [2151651]
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