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Searching for AAL65399
[ 3-ketoacyl-CoA thiolase, partial ] |
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Functional details
Molecular Function
S. No. |
GO Id |
GO Description |
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Biological process
S. No. |
GO Id |
GO Description |
1 |
GO:0009725 |
response to hormone stimulus |
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2 |
GO:0009737 |
response to abscisic acid stimulus |
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Cellular component
S. No. |
GO Id |
GO Description |
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Environment details
S. No. |
EO Id |
EO Description |
Presence(+) or absence(-) of gene expression /activity |
1 |
EO:0007105 |
abscisic acid regimen |
(+) |
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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 |
(+) |
2 |
PO:0001053 |
3 leaf fully expanded |
(+) |
Plant tissue/organ
S. No. |
PO Id |
PO Description |
Presence(+) or absence(-) of gene expression /activity |
1 |
PO:0008037 |
seedling |
(+) |
2 |
PO:0025034 |
leaf |
(+) |
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
Interaction type: protein-protein
Interaction type: protein-DNA
S. No. |
Primary rice gene loci |
Interacting rice gene loci |
Experiment type |
Id |
Domain name/N or C term |
Amino acid involved in interaction |
Id |
Domain name/N or C term |
Bases
involved in interaction |
Reference point |
cis-elements [PLACE Id] |
1 |
LOC_Os03g21060 |
- |
--- |
AAL65399 |
- |
- - |
- |
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Protein-DNA interaction analysis : Chromatin Immunoprecipitation (ChIP) |
2 |
LOC_Os03g21060 |
- |
--- |
AAL65399 |
- |
- - |
- |
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Protein-DNA interaction analysis : Yeast one-hybrid analysis |
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TSS - Transcriptional start site
TrSS - Translational start site |
TSS-Pu - Putative TSS by cDNA alignment
TSS-P - Predicted TSS |
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Related publications [Sorted by year] |
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1 |
Liang Chengzhen; Wang Yiqin; Zhu Yana; Tang Jiuyou; Hu Bin; Liu Linchuan; Ou Shujun; Wu Hongkai; Sun Xiaohong; Chu Jinfang; Chu Chengcai; OsNAP connects abscisic acid and leaf senescence by fine-tuning abscisic acid biosynthesis and directly targeting senescence-associated genes in rice. Proceedings of the National Academy of Sciences of the United States of America 2014:111
PMID [24951508]
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