- Information
- Symbol: OsCRY2,CRY2
- MSU: LOC_Os02g41550
- RAPdb: Os02g0625000
- Publication
- Involvement of rice cryptochromes in de-etiolation responses and flowering, 2006, Plant Cell Physiol.
- Cryptochrome and phytochrome cooperatively but independently reduce active gibberellin content in rice seedlings under light irradiation, 2012, Plant Cell Physiol.
- Differences and similarities in the photoregulation of gibberellin metabolism between rice and dicots, 2013, Plant Signal Behav.
- OsBIC1 Directly Interacts with OsCRYs to Regulate Leaf Sheath Length through Mediating GA-Responsive Pathway., 2021, Int J Mol Sci.
- CRY2 gene of rice Oryza sativa subsp. indica encodes a blue light sensory receptor involved in regulating flowering, plant height and partial photomorphogenesis in dark., 2022, Plant Cell Rep.
- Genbank accession number
- Key message
- Our studies revealed that OsCRY1 genes were mainly expressed in the green plant tissue, while OsCRY2 gene expression was high in the coleoptile, flower and callus
- In addition, OsCRY2 antisense transgenic rice flowered later than WT under both long-day and short-day conditions, indicating that Oscry2 is involved in the promotion of flowering time in rice
- OsBIC1 regulated blue light-induced leaf sheath elongation through direct interaction with OsCRY1a, OsCRY1b, and OsCRY2 (OsCRYs)
- Connection
- OsBBX14, OsCRY2~CRY2, OsBBX14 promotes photomorphogenesis in rice by activating OsHY5L1 expression under blue light conditions., LUC complementation imaging (LCI) results suggested that OsBBX14 had physical interaction with OsCRY2 protein
- OsBIC1, OsCRY2~CRY2, OsBIC1 Directly Interacts with OsCRYs to Regulate Leaf Sheath Length through Mediating GA-Responsive Pathway., OsBIC1 regulated blue light-induced leaf sheath elongation through direct interaction with OsCRY1a, OsCRY1b, and OsCRY2 (OsCRYs)
- OsCRY1a, OsCRY2~CRY2, OsBIC1 Directly Interacts with OsCRYs to Regulate Leaf Sheath Length through Mediating GA-Responsive Pathway., OsBIC1 regulated blue light-induced leaf sheath elongation through direct interaction with OsCRY1a, OsCRY1b, and OsCRY2 (OsCRYs)
- OsCRY1b, OsCRY2~CRY2, OsBIC1 Directly Interacts with OsCRYs to Regulate Leaf Sheath Length through Mediating GA-Responsive Pathway., OsBIC1 regulated blue light-induced leaf sheath elongation through direct interaction with OsCRY1a, OsCRY1b, and OsCRY2 (OsCRYs)
- OsCRY2~CRY2, OsFBO10, OsCRY2 and OsFBO10 co-regulate photomorphogenesis and photoperiodic flowering in indica rice., OsCRY2 and OsFBO10 co-regulate photomorphogenesis and photoperiodic flowering in indica rice.
- OsCRY2~CRY2, OsFBO10, OsCRY2 and OsFBO10 co-regulate photomorphogenesis and photoperiodic flowering in indica rice., Novel interactions were confirmed between OsCRY2 and members of ZEITLUPE family of blue/ultraviolet-A light photoreceptors, encoded by OsFBO8, OsFBO9 and OsFBO10 which are orthologous to ZEITLUPE (ZTL), LOV KELCH PROTEIN2 (LKP2) and FLAVIN BINDING, KELCH REPEAT F-BOX1 (FKF1), respectively, of Arabidopsis thaliana
- OsCRY2~CRY2, OsFBO10, OsCRY2 and OsFBO10 co-regulate photomorphogenesis and photoperiodic flowering in indica rice., OsCRY2 and OsFBO10 interacted in the nucleus and cytoplasm of the cell and cross-regulated the expression of each other
- OsCRY2~CRY2, OsFBO10, OsCRY2 and OsFBO10 co-regulate photomorphogenesis and photoperiodic flowering in indica rice., Both OsCRY2 and OsFBO10 played a positive role in photomorphogenic responses in different light conditions
- OsCRY2~CRY2, OsFBO10, OsCRY2 and OsFBO10 co-regulate photomorphogenesis and photoperiodic flowering in indica rice., The physical interaction of OsCRY2 with OsFBO10, their involvement in common physiological and developmental pathways and their cross-regulation of each other suggest that the two photoreceptors may regulate common developmental pathways in plants, either jointly or redundantly
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