BAIT
NPH4
ARF7, AUXIN RESPONSE FACTOR 7, AUXIN-REGULATED TRANSCRIPTIONAL ACTIVATOR 7, AUXIN-RESPONSIVE TRANSCRIPTIONAL ACTIVATOR 7, BIP, BIPOSTO, IAA21, IAA23, IAA25, MASSUGU 1, MSG1, NON-PHOTOTROPHIC HYPOCOTYL, T1M15.130, T1M15_130, TIR5, TRANSPORT INHIBITOR RESPONSE 5, indole-3-acetic acid inducible 21, indole-3-acetic acid inducible 23, indole-3-acetic acid inducible 25, AT5G20730
auxin-regulated transcriptional activator NPH4
GO Process (11)
GO Function (3)
GO Component (1)
Gene Ontology Biological Process
- blue light signaling pathway [IMP]
- gravitropism [TAS]
- lateral root development [IGI]
- lateral root formation [IGI]
- leaf development [IGI]
- phototropism [IMP]
- positive regulation of transcription, DNA-templated [IMP]
- regulation of growth [TAS]
- regulation of transcription, DNA-templated [TAS]
- response to auxin [IMP]
- response to ethylene [IGI]
Gene Ontology Molecular Function
Arabidopsis thaliana (Columbia)
PREY
IAA7
AUXIN RESISTANT 2, AXR2, indole-3-acetic acid 7, AT3G23050
auxin-responsive protein IAA7
GO Process (5)
GO Function (2)
GO Component (1)
Gene Ontology Biological Process
Gene Ontology Molecular Function
Arabidopsis thaliana (Columbia)
Two-hybrid
Bait protein expressed as a DNA binding domain (DBD) fusion and prey expressed as a transcriptional activation domain (TAD) fusion and interaction measured by reporter gene activation.
Publication
The auxin signalling network translates dynamic input into robust patterning at the shoot apex.
The plant hormone auxin is thought to provide positional information for patterning during development. It is still unclear, however, precisely how auxin is distributed across tissues and how the hormone is sensed in space and time. The control of gene expression in response to auxin involves a complex network of over 50 potentially interacting transcriptional activators and repressors, the auxin ... [more]
Mol. Syst. Biol. Jul. 08, 2011; 7(0);508 [Pubmed: 21734647]
Throughput
- High Throughput
Curated By
- BioGRID