Generation of low-cadmium rice germplasms via knockout of OsLCD using CRISPR/Cas9

The OsLCD gene, which has been implicated in cadmium (Cd) accumulation in rice, might be a useful target for CRISPR/Cas9 editing. However, the effects of OsLCD gene editing on Cd accumulation, plant growth, and yield traits remain unknown. Here, we used CRISPR/Cas9 to generate oslcd single mutants from indica and japonica rice cultivars. We also generated osnramp5 single mutants and oslcd osnramp5 double mutants in the indica background. When grown in Cd-contaminated paddy soils, all oslcd single mutants accumulated less Cd than the wild types (WTs). Consistent with this, oslcd single mutants grown in Cd-contaminated hydroponic culture accumulated significantly less Cd in the shoots as compared to WTs. This decrease in accumulation probably resulted from the reduction of Cd translocation under Cd stress. 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. 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. 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. Therefore, OsLCD knockout might be used to generate low-Cd rice germplasms.