证券日报网讯2月9日，沃森生物（300142）在互动平台回答投资者提问时表示，公司的生物制造业务布 局了系列生命健康相关产品，爱森泽生物和玉溪生物制造产业园均为承载产业转化的主体，合成生物创 新平台与产业化承载主体之间对研发、中试功能进行一体化统筹，产业化承载主体的产品产能、渠道、 市场均有协同效应。玉溪生物制造产业园项目(一期)的投资进度和产值贡献将根据产品研发转化进度分 阶段推进实现。 ...

Group 1: Quantum Technology - The team from the University of Science and Technology of China achieved significant breakthroughs in scalable quantum networks, including the construction of a basic module for scalable quantum repeaters and the realization of device-independent quantum key distribution (DI-QKD) over a distance of 100 kilometers, improving previous international experimental levels by over two orders of magnitude [4][5]. - The successful implementation of a quantum repeater with an entanglement lifetime of 550 milliseconds, exceeding the entanglement establishment time of 450 milliseconds, marks a critical advancement in quantum communication, enabling the construction of a kilometer-scale quantum internet [5]. Group 2: Biomanufacturing - The Shenzhen Advanced Institute of Technology developed a programmable integration platform for functional molecules, which opens up new applications in biomanufacturing, biosensing, and flexible electronics [6][7]. - OpenAI partnered with Ginkgo Bioworks to create an AI-driven automated experimental system that significantly reduces the production costs of cell-free protein synthesis (CFPS) by approximately 40% and reagent costs by 57% [8]. Group 3: Hydrogen Energy and Nuclear Fusion - The China Energy Construction Group's Songyuan hydrogen energy industrial park project has produced over 10,000 tons of green ammonia and received EU certification, validating the integrated commercial model of "green electricity - green hydrogen - green ammonia" [9][10]. - Shenzhen Energy signed a contract for a 505MW wind-solar hydrogen project with a total investment of approximately 8 billion, covering both upstream and downstream sectors [12]. Group 4: Brain-Computer Interfaces - The company Borui Kang has initiated the process for its initial public offering (IPO), marking a transition of invasive brain-computer interface technology from research to commercialization [13][15]. - A research team from the Chinese Academy of Sciences developed a novel optogenetic technique for visual brain-computer interfaces, enabling high-precision, long-term optical stimulation of the visual cortex, representing a significant advancement in sensory information input [16][18]. Group 5: Embodied Intelligence - Microsoft Research introduced a new robot model, Rho-alpha, which integrates multimodal perception capabilities, including visual, language, and tactile data, aimed at enhancing the application of embodied intelligence in unstructured environments [21]. Group 6: 6G and Commercial Space - A research team from Beijing University of Posts and Telecommunications made significant progress in 6G channel modeling, with their work being included in the international 6G standard framework by 3GPP [22]. - The U.S. Federal Communications Commission (FCC) accepted SpaceX's application for an orbital data center, which aims to establish a satellite constellation of up to 1 million satellites to support advanced AI models and applications [25]. Group 7: Future Industry Catalysts - A table summarizing key catalytic events for six future industries in 2026 was provided, highlighting important milestones and conferences that investors should track [26][27].

【SynBioCon】 获 悉， 2月4 日， 中国石油集团 与 天津大学 在京签署战略合作协议。而在这之前， 中国石油集团昆仑资本有限公司 与 天津大学合 成生物前沿研究院 正式签约达成战略合作，活动于去年11月顺利举行。该合作旨在聚焦 合成生物 前沿领域 ，培养具有全球竞争力的拔尖创新人才和领军 学者。 值得关注的是，就在1月18日， 中石油蓝海新材料公司 与 中国昆仑工程公司 合作成立的 "生物制造产业创新中心" 在通州湾揭牌 。 蓝海新材料公司执 行董事、党委书记 李贵合 表示公司明确 将生物制造与精细化工作为企业发展的第三曲线 ，未来将以生物制造产业创新中心为牵引，锚定生物制造领域的关 键核心技术，聚力 突破从实验室到工厂的"最后一公里" ，形成一批可复制、可推广的共性关键技术成果， 为推动中石油生物制造产业高质量发展注入强劲 动力 。 一、石油巨无霸的"第三曲线"，为什么是"生物制造"？ 将合成生物和生物制造定位为" 第三曲线 "，是中石油在深刻把握能源与化工行业发展趋势后，做出的 前瞻性战略选择 。 早在2025年8月，中石油就公布了 公司重点布局的新兴产业方向。 中国石油 集团 董事长、党组书 ...

Core Viewpoint - The government of Shaanxi Province aims to optimize regional layout and enhance collaborative development among its three distinct areas: Northern Shaanxi, Guanzhong, and Southern Shaanxi, focusing on energy supply and carbon emission control [1] Group 1: Regional Development Strategy - Shaanxi Province's Governor Zhao Gang emphasized the need for a coordinated development strategy to leverage the dual driving forces of Xi'an and Yulin [1] - Zhang Tao, a prominent local leader, advocates for a comprehensive regional development strategy that promotes economic growth points and high-quality development across the province [1] Group 2: Industry Development Initiatives - Xi'an is encouraged to develop emerging industries such as biomanufacturing and new materials, facilitating the flow of technology, talent, and capital throughout the province [1] - Yulin is positioned to enhance its traditional energy sector by developing a full industrial chain in solar, wind, and hydrogen energy, aiming to create a world-class high-end energy chemical base [1] Group 3: Collaborative Models and Policies - The establishment of new cooperative models like "Sci-tech Innovation Zones" and "Industrial Zones" is proposed to foster collaboration between Xi'an and Yulin, creating a beneficial cycle of research and development [1] - A new framework for county-level collaborative development is suggested, focusing on merging similar industrial parks and promoting resource integration across neighboring counties [2] - Policies for cross-regional cooperation are to be developed, addressing the distribution of benefits from industrial transfers and detailing tax sharing and resource flow measures [2]

（记者 张喜威） 每经AI快讯，沃森生物（300142.SZ）2月9日在投资者互动平台表示，公司的生物制造业务在2025年完 成首个产业化项目产能建设，在2026年一季度实现投产，同时已经对接下游客户并建立合作关系。后续 相关进展情况请持续关注公司的信息披露。 ...

Group 1: Future Industry Development - The core theme of the recent collective study by the Central Political Bureau focuses on forward-looking layout and development of future industries, emphasizing that technological breakthroughs significantly determine the speed, breadth, and depth of future industry development [1] - Future industries are characterized by their foresight, strategic importance, and disruptive nature, with technological breakthroughs being crucial for their development [1] - The emphasis is on leveraging scientific and technological innovation to lead industrial innovation, injecting continuous momentum into future industry development [1] Group 2: Key Technologies and Innovations - The new type of national system is highlighted as a key advantage in addressing critical core technologies, with a focus on the integration of industry needs and technological responses [2] - The development of a "microbial parallel bioreactor" has been achieved, significantly improving efficiency compared to traditional equipment, which has been dominated by foreign technologies [2][3] - Collaborative innovation among research institutions and manufacturing enterprises is essential for accelerating the transformation of technological achievements into industrial applications [3] Group 3: Importance of Basic Research - Basic research is identified as the source of technological innovation and a critical support for future industry technology innovation [4] - The successful development of a third-generation autonomous superconducting quantum computer and advancements in quantum communication networks illustrate the importance of foundational research in driving industry growth [5] - The establishment of a green extraction process for paclitaxel demonstrates the long-term commitment to basic research and its role in overcoming industry challenges [6] Group 4: Role of Enterprises - Enterprises are recognized as the main body of technological innovation and play a crucial role in advancing future industries [7] - The establishment of the China Fusion Energy Company marks a significant shift towards commercializing controlled nuclear fusion, highlighting the importance of enterprise involvement in technological advancements [7] - The integration of research institutions, clinical applications, and enterprises is essential for fostering innovation and market transformation in future industries [9] Group 5: Collaborative Efforts and Strategic Planning - The new type of national system is crucial for guiding collaboration between enterprises, universities, and research institutions to address industry needs and promote efficient technology transfer [10] - The development of future industries is seen as a strategic move for both current and future national interests, emphasizing the need for a systematic and forward-looking approach [10]

Group 1 - The core theme of the articles emphasizes the importance of technological breakthroughs in determining the speed, breadth, and depth of future industrial development [1][4] - The concept of "industry posing questions, technology providing answers" is highlighted as a guiding principle for driving innovation and addressing key technological challenges [2][4] - The collaboration between research institutions and manufacturing enterprises is crucial for accelerating the transformation of technological achievements into industrial applications [3][8] Group 2 - The new type of national system is identified as a key guarantee for promoting future industrial development, enabling long-term stable investment and strategic patience [4][9] - Strengthening strategic, forward-looking, and systematic layouts in basic research is essential for fostering technological innovation and supporting future industries [5][6] - Enterprises are recognized as the main body of technological innovation, playing a vital role in leading industries towards advanced and high-end fields [7][9] Group 3 - The development of core technologies in fields such as controlled nuclear fusion is highlighted as a significant step towards commercializing future energy solutions [7][8] - The establishment of innovation alliances that integrate research, clinical applications, and enterprise participation is essential for advancing complex systems like brain-machine interfaces [8][9] - The articles stress the need for effective collaboration between enterprises, universities, and research institutions to tackle key technological challenges and enhance the efficient transformation of scientific achievements [9]

Group 1 - The core theme of the news is the emphasis on technological innovation as a driving force for the development of future industries, highlighting the importance of breakthroughs in technology for enhancing the speed, breadth, and depth of industrial growth [1][4] - The new type of national system is identified as a key guarantee for promoting the development of future industries, enabling strategic patience and long-term stable investment that the market cannot provide [4][10] - The integration of research institutions, manufacturing enterprises, and application sectors is crucial for accelerating the transformation of technological achievements into industrial applications [3][9] Group 2 - The focus on key core technology breakthroughs is essential, with a call for industries to present challenges that technology must address, ensuring that technological innovation is driven by actual market needs [2][10] - The development of high-performance bioreactors in the biomanufacturing sector is highlighted, showcasing a successful case of overcoming technological monopolies through collaborative innovation [2][3] - The rise of quantum computing in Hefei is noted, with significant advancements in both foundational research and industrial applications, indicating a robust growth trajectory for the quantum industry [5][6] Group 3 - The role of enterprises as the main body of technological innovation is emphasized, with a focus on cultivating leading technology companies that can drive industries towards high-end fields [7][8] - The establishment of innovative joint entities that combine research, clinical applications, and enterprise involvement is presented as a model for fostering deep cooperation and innovation in future industries [9][10] - The need for strategic, forward-looking, and systematic layouts in basic research is stressed, as it serves as the foundation for technological innovation and future industrial development [6][10]

□文/本报记者 梅刚 图/本报记者 王磊 "政府工作报告通篇体现了牢记嘱托、感恩奋进的政治自觉，紧扣自治区党委'1571'工作部署绘制'施工 图'，充分彰显了党委有部署、政府快行动的鲜明态度。"自治区人大代表，通辽市委副书记、市长奇· 达楞太在接受记者采访时说。 （来源：内蒙古日报） 转自：内蒙古日报 奇·达楞太表示，通辽市将把铸牢中华民族共同体意识这条主线贯穿于工作全过程各方面，实施民族团 结进步示范市创建"全域提升"工程。紧紧围绕建设"两个屏障"、"两个基地"、"一个桥头堡"战略定位和 使命任务，打好打赢科尔沁沙地歼灭战，加快推进全国肉牛产业重镇建设，推动"吨粮田"面积达到400 万亩以上。 "我们将紧紧围绕七项重点工作持续发力。"奇·达楞太介绍，今年，通辽市将实施新一轮工业倍增、农 牧业提质增效、服务业扩能提质三个行动，确保年内GDP增速达到5.5%；聚焦玉米、肉牛、生物制造 等关键领域开展科技攻关，因地制宜发展新质生产力；持续稳固投资增长良好势头，力争固投增速达到 12%以上；深入开展营商环境质量提升年行动，加快建设"企业友好型、产业友好型、创新友好型"营商 环境；全面提升城镇承载能力，补齐公共服务短 ...

中新网天津2月6日电 (记者 王君妍)记者6日从天津港保税区获悉，由中国科学院天津工业生物技术研究 所(以下简称天津工生所)牵头承担的国家重点研发计划"合成生物学"重点专项——"基于虚拟细胞技术的 合成基因回路与底盘细胞协同设计"项目启动会日前在天津举行。 项目启动会上，项目及课题负责人围绕项目背景、总体设计、研究内容、技术路线及最新进展等方面进 行了系统汇报。咨询专家组充分肯定了项目的前沿定位和交叉融合特色，并就虚拟细胞模型构建策略、 人工智能与机理模型融合路径、面向细胞工厂与细胞治疗应用的关键技术突破等提出了建设性意见。 天津工生所所长向华表示，该项目的实施，将有助于提升我国在生物设计底层工具与核心模型的创新能 力，为抢占下一代生物制造制高点提供有力支撑。 天津港保税区相关负责人表示，作为天津大力发展合成生物创新策源、推动生物制造产业高质量发展的 重要承载地，天津港保税区全力打造"生物制造先导区"，并已在区域内构建起以天津工生所、国家合成 生物技术创新中心等平台为核心的研发策源体系，涌现出二氧化碳人工合成淀粉、DNA合成仪、健康 糖等一批标志性项目。(完) 据介绍，该项目聚焦合成生物学与人工智能前沿交叉领 ...