Core Viewpoint - The integration of AI technology in interdisciplinary research, particularly in agricultural science, is leading to innovative breakthroughs, such as the development of efficient gene editing tools to enhance food security and support national strategic needs [1][2]. Group 1: AI and Interdisciplinary Research - Beijing Zhongguancun Academy focuses on AI and interdisciplinary education and research, collaborating with 31 universities to foster scientific exploration and technological advancements [1]. - The "AI + dry-wet loop" project aims to develop domestically-owned efficient micro gene editing tools to overcome foreign patent barriers and support molecular breeding for crop improvement [2]. Group 2: Gene Editing Technology - The project has reportedly increased the editing efficiency of specific gene editing tools by approximately three times, which could significantly shorten breeding cycles and enhance crop traits [3]. - The research targets enzymes involved in photosynthesis to improve efficiency and increase food production [2][3]. Group 3: Student Involvement and Perspectives - Students with AI academic backgrounds are actively participating in the project, motivated by the potential to contribute to national food security and the enthusiasm of their mentors [3][4]. - The project is seen as a dual application of gene editing technology in both agriculture and medical research, showcasing its broad potential [4]. Group 4: Institutional Support and Development - The development of Beijing Zhongguancun Academy is part of Beijing's broader initiative to integrate education, technology, and talent development [4][5]. - The Beijing Municipal Education Science and Technology Talent Working Group is responsible for coordinating efforts to support cutting-edge fields like gene editing technology [5].