团队负责人
田耀旗
团队成员
潘晓花、麻荣荣、刘畅
团队简介
专注于慢病特殊食品的功能营养与产品技术推广工作。主要工作在Nature Communications、Engineering等主流期刊发表学术论文140篇,获授权发明专利42件(美国、日本发明专利10件);主要成果荣获教育部技术发明一等奖、中国轻工联合会科技进步一等奖;入选山东省“泰山产业领军人才”、中组部特支计划青年拔尖人才、教育部国家高层次人才(特聘教授)。
带领党派会员持续10年服务乡村振兴项目,个人事迹在民进中央《民主》杂志(2023年第5期)刊发,荣获民进中央“全国组织工作先进个人”荣誉称号。
代表性成果
1.科研项目
[1]2021年,教育部,国家高层次人才(特聘教授),国家级
[2]2019年,中组部,特支计划青年拔尖人才,国家级
[3]2021年,科技部,“十四五”国家重点研发计划课题,国家级
[4]2020年,国家自然科学基金委,面上项目,国家级
[5]2024年,教育部,产学合作协同育人项目,省部级
[6]2024年,科技部,“十四五”国家重点研发计划子课题,国家级
[7]2024年,国家自然科学基金委,面上项目,国家级
2.发明专利
[1]2025年,Preparation Method of Rice Noodle With Low Glycemic Index,美国发明专利
[2]2025年,マルトデキストリンの製造方法,日本发明专利
[3]2023年,ZL202211369208.1,一种多晶型抗性淀粉的制备方法,国家发明专利
[4]2023年,ZL202211218035.3,一种V-型结晶淀粉的制备方法,国家发明专利
[5]2023年,US11549133B2,Preparation Method of Amylodextrin,美国发明专利
[6]2022年,US11297855B2,Preparation of Recombinant Rice with Low Glycemic Index whose Raw Material is Slowly Digested Starch,美国发明专利
[7]2022年,JP7109662B2,遅消化性デンプンの製造方法,日本发明专利
[8]2022年,ZL202010655112.6,一种藜麦质低GI配料的制备方法,国家发明专利
[9]2022年,ZL201910694155.2,一种低血糖指数米粉的制备方法,国家发明专利
[10]2021年,美国专利US11155645B2,Preparation Method of Slowly Digestible Starch,美国发明专利
3.科研获奖
[1]2020年,教育部技术发明一等奖(排名1),淀粉基低GI米面制品加工关键技术创新及产业化
[2]2020年,中国轻工业联合会科技进步一等奖(排名1),淀粉基低GI食品配料制造关键技术创新及应用
[3] 2022年,江苏省自然科学二等奖(排名3),基于糖链重构、晶态转变、颗粒修饰的淀粉功能特性调控
[4] 2024年,中国商业联合会科技进步奖一等奖(排名1),功能淀粉提质增效关键技术与产业化示范
[5] 2024年,江苏省科技进步二等奖(排名2),淀粉质健康食品精准加工关键技术创新与应用
4.学术论文
[1] Chang Liu, Xiaojiao Zheng, Jian Ji, Xuan Zhu, Xiaoning Liu, He Liu, Lichun Guo, Kun Ye, Shuang Zhang, Yong-jiang Xu, Xiulan Sun, Weibiao Zhou, Hoi Leong Xavier Wong*, Yaoqi Tian*, He Qian*. The carotenoid torularhodin alleviates NAFLD by promoting Akkermanisa muniniphila-mediated adenosylcobalamin metabolism. Nature Communications, 2025, 16(1):3338
[2] Fan Wang, Rongrong Ma, Jingling Zhu, Wei Ma, Jun Li*, Yaoqi Tian*. Design principle andemerging applications ofstarch-involved superwettable systems. Engineering, 2025, 53(10):155-175
[3] Chang Liu, RongrongMa,HanLi,XiaohuaPan, HeQian, Tianyi Yang, Yaoqi Tian*. Akkermansia muciniphila ameliorates fatty liver through microbiota-derived α-ketoisovaleric acid metabolism and hepatic PI3K/Akt signaling. iScience. 2025, 28(5):112458
[4] Haitao Jiang, Rongrong Ma, Xiaohua Pan, Chang Liu, Jinling Zhan, Tianyi Yang, Yaoqi Tian*. Molecular structure and pasting, rheological, and digestive properties of a novel small granular starch obtained from Chlorella sorokiniana cultivated under a nutrition-limited condition. Food Hydrocolloids, 2026, 170:111669
[5] Xiaoxue Lu, Rongrong Ma, Jinling Zhan, Xiaohua Pan, Chang Liu, Wangyang Shen, Shuang Zhang, Weibiao Zhou, Yaoqi Tian*. Thermally processed rice starch impacts glucose homeostasis in mice to different degrees via disturbing gut microbial structure and intestinal barrier function. Carbohydrate Polymers. 2025, 348:122795.
[6] Xiaoxue Lu, Rongrong Ma, Jinling Zhan, Tianyi Yang, Yaoqi Tian*. Thermal treatments modulate short-chain fatty acid production and microbial metabolism of starch-based mixtures in different ways: A focus on the relationship with the structure of resistant starch. Food Hydrocolloids, 2024, 149:109576
[7] Ranran Chang, Zihang Wang, Lili Fu, Chuanjing Chen, Kunjie Xu, Aiguo Ma, Yaoqi Tian*. Recrystallized resistant starch by encapsulation with konjac glucomannan: Structural changes, digestibility, and its effect on glucose response and short-term satiety in mice. Food Chemistry, 2024, 442:138379
[8] Haitao Jiang, Fan Wang, Rongrong Ma, Yaoqi Tian*. Advances in gum Arabic utilization for sustainable applications as food packaging: Reinforcement strategies and applications in food preservation. Trends in Food Science & Technology, 2023, 142: 104215
[9] Ranran Chang, Zhengyu Jin, Yaoqi Tian*. Insights into the structural, morphological, and thermal property changes in simulated digestion and fermentability of four resistant starches from high amylose maize starch. Food Hydrocolloids, 2023, 142:108770
[10] Xiaoxue Lu, Rongrong Ma, Jinling Zhan, Yaoqi Tian*. Structural changes of thermally treated starch during digestion and the impact on postprandial glucose homeostasis. Carbohydrate Polymers, 2023, 318:121105
