- Information
- Symbol: COPT1
- MSU: LOC_Os01g56420
- RAPdb: Os01g0770700
- Publication
- Genbank accession number
- Key message
- The CC motif has been detected in rice COPT1, COPT2, and COPT5 and CxC motif in rice COPT6 and COPT7 at the C-termini (Figure <U+200B>(Figure22).
- Zn deficiency induced COPT1, COPT5, and COPT7 and slightly suppressed COPT4 in root and induced COPT5, COPT6, and COPT7 in shoot.
- Overexpressing COPT1 or COPT5 or suppressing COPT1 or COPT5 in rice had no influence on Fe, Mn, and Zn contents in rice shoot
- Rice COPT1, COPT5, and XA13 cooperate to promote removal of Cu from rice xylem vessels, where Xoo multiplies and spreads to cause disease
- Loss-of-function mutations in HMA5, COPT1, and COPT5 caused a significant reduction in copper accumulation and plant viral resistance because of the increased SPL9-mediated miR528 transcription.
- Connection
- COPT1, COPT5, Molecular and functional analyses of COPT/Ctr-type copper transporter-like gene family in rice, However, only two, COPT1 and COPT5, have been characterized for their functions in Cu transport
- COPT1, COPT5, Molecular and functional analyses of COPT/Ctr-type copper transporter-like gene family in rice, Among the proteins encoded by rice COPTs, COPT2, COPT3, and COPT4 physically interacted with COPT6, respectively, except for the known interaction between COPT1 and COPT5
- COPT1, COPT5, The key micronutrient copper orchestrates broad-spectrum virus resistance in rice., Loss-of-function mutations in HMA5, COPT1, and COPT5 caused a significant reduction in copper accumulation and plant viral resistance because of the increased SPL9-mediated miR528 transcription
- COPT1, miR528, The key micronutrient copper orchestrates broad-spectrum virus resistance in rice., Loss-of-function mutations in HMA5, COPT1, and COPT5 caused a significant reduction in copper accumulation and plant viral resistance because of the increased SPL9-mediated miR528 transcription
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