登上Cell封面：中国科学院将CRISPR基因编辑与AI机器人结合，推动可持续农业发展

Core Insights - The article discusses the significant opportunities presented by artificial intelligence (AI) and robotics in the transition to precision agriculture, which can enhance crop yields, reduce costs, and promote sustainability [3][8] - A research team from China has developed a novel approach that integrates biotechnology and AI, proposing the concept of crop-robot co-design to overcome challenges in hybrid breeding [4][9] Group 1: Research Highlights - The research published in the journal Cell introduces the world's first intelligent breeding robot, GEAIR, capable of automated cross-pollination, which significantly lowers breeding costs and shortens breeding cycles [4][8] - The team utilized genome editing to redesign flower morphology, creating male-sterile tomato plants with exposed stigmas, facilitating robot-assisted pollination [8][9] - The GEAIR system can achieve automated F1 hybrid breeding with efficiency comparable to manual pollination, aiding in the rapid development of climate-resilient and flavorful crops [8][11] Group 2: Technological Innovations - Genome editing of ABC model genes allows for the production of male-sterile flowers with exposed stamens in tomatoes and soybeans, potentially revolutionizing robotic hybrid breeding [9] - AI-driven robots simplify the process of cross-pollination, enhancing the efficiency of hybrid breeding [9] - The integration of biotechnology with AI-based robotics addresses bottlenecks in rapid crop breeding, providing solutions for sustainable precision agriculture [9][11]