- Information
- Symbol: OsZFP
- MSU: LOC_Os01g14920
- RAPdb: Os01g0252900
- PSP score
- LOC_Os01g14920.1: 0.5907
- PLAAC score
- LOC_Os01g14920.1: 0
- pLDDT score
- 63.47
- Protein Structure from AlphaFold and UniProt
- Publication
- A zinc finger protein, interacted with cyclophilin, affects root development via IAA pathway in rice., 2017, J Integr Plant Biol.
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Genbank accession number
- Key message
- T2 OsZFP-RNAi lines had significantly fewer lateral roots than did wild type plants, which suggests a role for OsCYP2 and OsZFP in regulating lateral root development
- These findings imply that OsCYP2 and OsZFP participate in IAA signal pathways controlling lateral root development
- Connection
- OsCYP2~OsCyp2-P~LRT2, OsZFP, A zinc finger protein, interacted with cyclophilin, affects root development via IAA pathway in rice., Yeast two-hybrid and GST pull-down results confirmed that OsCYP2 interacted with a C2HC-type zinc finger protein (OsZFP, Os01g0252900) which is located in the rice nucleus
- OsCYP2~OsCyp2-P~LRT2, OsZFP, A zinc finger protein, interacted with cyclophilin, affects root development via IAA pathway in rice., T2 OsZFP-RNAi lines had significantly fewer lateral roots than did wild type plants, which suggests a role for OsCYP2 and OsZFP in regulating lateral root development
- OsCYP2~OsCyp2-P~LRT2, OsZFP, A zinc finger protein, interacted with cyclophilin, affects root development via IAA pathway in rice., These findings imply that OsCYP2 and OsZFP participate in IAA signal pathways controlling lateral root development
- OsCYP2~OsCyp2-P~LRT2, OsZFP, A zinc finger protein, interacted with cyclophilin, affects root development via IAA pathway in rice., Yeast two-hybrid and glutathione S-transferase pull-down results confirmed that OsCYP2 interacted with a C2HC-type zinc finger protein (OsZFP, Os01g0252900) which is located in the rice nucleus
- OsCYP2~OsCyp2-P~LRT2, OsZFP, A zinc finger protein, interacted with cyclophilin, affects root development via IAA pathway in rice., T2 OsZFP-RNAi lines had significantly fewer lateral roots than did wild-type plants, which suggests a role for OsCYP2 and OsZFP in regulating lateral root development
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