- Information
- Symbol: OsLCD
- MSU: LOC_Os01g72670
- RAPdb: Os01g0956700
- Publication
- Low cadmium LCD, a novel gene related to cadmium tolerance and accumulation in rice, 2011, J Exp Bot.
- Salicylic acid application alleviates cadmium accumulation in brown rice by modulating its shoot to grain translocation in rice, 2021, Chemosphere.
- Generation of low-cadmium rice germplasms via knockout of OsLCD using CRISPR/Cas9., 2022, J Environ Sci (China).
- Genbank accession number
- Key message
- Oxidative damage also decreased, and plant growth increased in all oslcd single mutant seedlings as compared to WTs in the presence of Cd
- Plant growth and most yield traits, as well essential element concentrations in rice seedling shoots, brown rice, and rice straw, were similar between oslcd single mutants and WTs
- However, the effects of OsLCD gene editing on Cd accumulation, plant growth, and yield traits remain unknown
- The OsLCD gene, which has been implicated in cadmium (Cd) accumulation in rice, might be a useful target for CRISPR/Cas9 editing
- Connection
- OsLCD, OsLCT1, Salicylic acid application alleviates cadmium accumulation in brown rice by modulating its shoot to grain translocation in rice, Furthermore, SA could increase the H2O2 content, activating the SA-signaling pathway and modulating the expression levels of Cd transporters (OsLCT1 and OsLCD) in rice leaves to increase Cd tolerance and reduce Cd accumulation in the rice grain
- OsLCD, OsNRAMP5, Generation of low-cadmium rice germplasms via knockout of OsLCD using CRISPR/Cas9., We also generated osnramp5 single mutants and oslcd osnramp5 double mutants in the indica background
- OsLCD, OsNRAMP5, Generation of low-cadmium rice germplasms via knockout of OsLCD using CRISPR/Cas9., In the presence of Cd, Cd concentrations in the brown rice and shoots of oslcd osnramp5 double mutants were significantly decreased compared with WTs as well as osnramp single mutants
- OsLCD, OsNRAMP5, Generation of low-cadmium rice germplasms via knockout of OsLCD using CRISPR/Cas9., Our results suggested that OsLCD knockout may reduce Cd accumulation alone or in combination with other knockout mutations in a variety of rice genotypes; unlike OsNramp5 mutations, OsLCD knockout did not reduce essential element contents
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