齐鲁晚报·齐鲁壹点记者 李文璇 回顾过去一年的履职经历，山东省政协委员、齐鲁工业大学食品科学与工程学部主任崔波感到"成就感 满满"。"食品企业在发展过程中难免遭遇瓶颈，通过和我们交流，能够获得灵感，重拾发展信心。"崔 波说，看到食品企业蹚出"新路子"，是自己最开心的事。 "随着社会经济的不断发展，人们期待吃到更美味、更健康的食品，如何紧扣多样化需求，兼顾场景化 体验，以科技赋能食品产业发展，是值得我们思考的重要问题。"崔波说。 邹城之行是崔波一年以来调研经历的缩影。2025年，崔波多次率领团队赴济宁市进行食品产业摸底，足 迹遍布13个区县，明确各地特色产业发展方向，最终编制出有针对性的"济宁市食品产业高质量发展专 项课题规划"。此后，多个食品企业主动向他们寻求科研合作。 一些产学研合作已经落地见效。崔波告诉记者，潍坊坊子区有一家生产豆沙馅的企业，煮过红豆的水以 往都是直接排放掉，不仅浪费还得额外进行污水处理。企业负责人为此苦恼不已，向崔波等人提出制作 饮品的想法，并在他们的帮助下开发出红豆薏米水等饮品。最终，这家企业的红豆薏米水成为了"网 红"饮品，电商平台销量可观，还反过来带动了豆沙馅的生产销售。 今年山东 ...

Core Viewpoint - The article discusses the innovative production and application of spermidine, a natural polyamine with significant potential in anti-aging and cardiovascular disease prevention, through synthetic biology techniques developed by a research team at Sichuan University [1][2]. Group 1: Spermidine Production Challenges - Spermidine is recognized as a promising bioactive molecule, but its high production costs have hindered large-scale industrial application [1][2]. - Traditional extraction methods yield low purity (only 1% from wheat germ) and are inefficient, while chemical synthesis is costly, leading to market domination by foreign companies [2][3]. Group 2: Technological Innovations - The research team employs machine learning algorithms to simulate yeast metabolic networks, significantly enhancing spermidine synthesis efficiency [3]. - A breakthrough in the discovery of an extracellular secretion mechanism allows spermidine to be actively expelled from cells, reducing energy consumption and improving purity during extraction [4]. Group 3: Industry Collaboration and Education - The collaboration between academia and industry enables students to engage in practical applications, bridging the gap between laboratory research and market needs [4][8]. - The establishment of a project-based learning model in universities aims to cultivate versatile talents for the industry [4][9]. Group 4: Market Potential and Policy Support - Spermidine is positioned to drive multiple billion-dollar industries, with ongoing clinical trials in the pharmaceutical sector and product development in the food industry [6][7]. - Chengdu is emerging as a hub for synthetic biology, with supportive policies from various provinces to facilitate technology transfer and commercialization [7][8]. Group 5: Future Outlook - The global economic impact of synthetic biology is projected to yield $2-4 trillion annually between 2030 and 2040, indicating a significant opportunity for industries leveraging these technologies [6]. - The integration of academic research, industry needs, and supportive policies is expected to enhance the domestic production of critical bioactive substances like spermidine, contributing to public health initiatives [8][9].