Researchers Find Key Gene for Cadmium Tolerance and Accumulation in Rice

Cadmium is a toxic heavy metal found in some farming soils that can seep into rice crops, posing a serious threat to global food safety. To tackle this, scientists discovered a specific gene in rice, Os79, that accidentally acts as an open door for this toxin. By using gene-editing technology to turn this gene off, researchers at the Chinese Academy of Sciences created a modified rice plant that is much better at defending itself. When the gene is disabled, the rice plants grow normally even in polluted soils and absorb significantly less cadmium, keeping the grain much safer for consumers.

Turning off Os79 triggers a powerful, three-part shield within the rice plant. First, it changes how the plant moves metals, turning down the cellular pumps that normally suck cadmium into the plant while turning up the pumps that lock the metal safely away in internal storage compartments. Second, it strengthens the plant's cell walls, making them stickier so they trap cadmium before it reaches the grain. Finally, it boosts the plant's natural immune system by producing protective enzymes that clear harmful stress molecules and keep the plant healthy. Ultimately, disabling this single gene provides a highly promising blueprint for breeding safer, cleaner rice in regions facing challenges with soil pollution.

Read the research article for more findings.

See https://www.isaaa.org/kc/cropbiotechupdate/ged/article/default.asp?ID=21833