- Information
- Symbol: OsICE1,OsbHLH002
- MSU: LOC_Os11g32100
- RAPdb: Os11g0523700
- Publication
- Rice homologs of inducer of CBF expression OsICE are involved in cold acclimation, 2011, Plant Biotechnology.
- The Rice Transcription Factors OsICE Confer Enhanced Cold Tolerance in Transgenic Arabidopsis., 2017, Plant Signal Behav.
- OsMAPK3 Phosphorylates OsbHLH002/OsICE1 and Inhibits Its Ubiquitination to Activate OsTPP1 and Enhances Rice Chilling Tolerance., 2017, Dev Cell.
- Multiple transcriptional factors control stomata development in rice., 2019, New Phytol.
- RSD1 Is Essential for Stomatal Patterning and Files in Rice, 2020, Front Plant Sci.
- Identification of candidate genes controlling chilling tolerance of rice in the cold region at the booting stage by BSA-Seq and RNA-Seq, 2020, R Soc Open Sci.
- Genbank accession number
- Key message
- In contrast to the proteins, cold stress had little or no effect on the expression of OsICE1 and OsICE2
- Furthermore, we showed that both OsICE1 and OsICE2 physically interact with OsMYBS3, a single DNA-binding repeat MYB transcription factor that is essential for cold adaptation in rice, suggesting that OsICE1/OsICE2 and OsMYBS3 probably act through specific signal transduction mechanisms to coordinate cold tolerance in rice
- Overexpression of OsICE1 and OsICE2 in Arabidopsis significantly enhanced the cold tolerance of Arabidopsis seedlings and improved the expression of cold-response genes
- Connection
- OsbHLH001~OsICE2, OsICE1~OsbHLH002, Rice homologs of inducer of CBF expression OsICE are involved in cold acclimation, These sizes are consistent with those predicted for OsICE1 and OsICE2, respectively
- OsbHLH001~OsICE2, OsICE1~OsbHLH002, Rice homologs of inducer of CBF expression OsICE are involved in cold acclimation, In contrast to the proteins, cold stress had little or no effect on the expression of OsICE1 and OsICE2
- MYBS3~OsMYBS3, OsICE1~OsbHLH002, The Rice Transcription Factors OsICE Confer Enhanced Cold Tolerance in Transgenic Arabidopsis., Furthermore, we showed that both OsICE1 and OsICE2 physically interact with OsMYBS3, a single DNA-binding repeat MYB transcription factor that is essential for cold adaptation in rice, suggesting that OsICE1/OsICE2 and OsMYBS3 probably act through specific signal transduction mechanisms to coordinate cold tolerance in rice
- OsbHLH001~OsICE2, OsICE1~OsbHLH002, The Rice Transcription Factors OsICE Confer Enhanced Cold Tolerance in Transgenic Arabidopsis., Here we identified that OsICE1 and OsICE2 in rice shared highly conserved amino acid sequence with AtICE1 in Arabidopsis
- OsbHLH001~OsICE2, OsICE1~OsbHLH002, The Rice Transcription Factors OsICE Confer Enhanced Cold Tolerance in Transgenic Arabidopsis., Overexpression of OsICE1 and OsICE2 in Arabidopsis significantly enhanced the cold tolerance of Arabidopsis seedlings and improved the expression of cold-response genes
- OsbHLH001~OsICE2, OsICE1~OsbHLH002, The Rice Transcription Factors OsICE Confer Enhanced Cold Tolerance in Transgenic Arabidopsis., Furthermore, we showed that both OsICE1 and OsICE2 physically interact with OsMYBS3, a single DNA-binding repeat MYB transcription factor that is essential for cold adaptation in rice, suggesting that OsICE1/OsICE2 and OsMYBS3 probably act through specific signal transduction mechanisms to coordinate cold tolerance in rice
- OsICE1~OsbHLH002, OsPP2C27, Phosphatase OsPP2C27 directly dephosphorylates OsMAPK3 and OsbHLH002 to negatively regulate cold tolerance in rice, Phosphatase OsPP2C27 directly dephosphorylates OsMAPK3 and OsbHLH002 to negatively regulate cold tolerance in rice
- OsICE1~OsbHLH002, OsPP2C27, Phosphatase OsPP2C27 directly dephosphorylates OsMAPK3 and OsbHLH002 to negatively regulate cold tolerance in rice, We found that a novel type 2C protein phosphatase, OsPP2C27, functions as a negative regulator of the OsMAPK3-OsbHLH002-OsTPP1 pathway.
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