汤小朋,男,致公党党员,农学博士,硕士生导师。2018年11月至今就职于贵州师范大学喀斯特研究院。主要研究方向为喀斯特适生植物饲料资源开发与利用;喀斯特地区土壤、植物与放牧动物的互作关系等。目前,主持或参与项目8项。国内外发表期刊论文50余篇,参编专著1部,授权专利5项。联系方式:Email: tangxiaopeng110@126.com; QQ: 214612320.
1. 教育经历
(1) 2014-09 至 2018-06, 湖南农业大学, 动物营养与饲料科学, 博士
(2) 2011-09 至 2014-06, 四川农业大学, 动物营养与饲料科学, 硕士
(3) 2007-09 至 2011-06, 山西农业大学, 动物科学, 学士
2. 主持或参与项目
(1) 贵州省科学技术厅, 贵州省科技计划项目, 黔科合基础-ZK[2023]一般267, 姜黄素络合锌通过TLR4/NF-κB信号通路缓解猪小肠上皮细胞炎性损伤的分子机制研究, 2023-01 至今, 在研, 主持
(2) 贵州师范大学, 贵州师范大学学术新苗基金项目, 黔师新苗[2021]B16, 谷氨酰胺转运载体ASCT2在缓解猪小肠上皮细胞损伤中的作用及其调控机制, 2022-04 至今, 在研, 主持
(3) 贵州省教育厅, 贵州省普通高等学校青年科技人才成长项目, 黔教合KY字[2021]294, 表皮生长因子对宫内发育迟缓仔猪肠道葡萄糖转运的影响及作用机理研究, 2021-01至2023-12, 结题, 主持
(4) 贵州师范大学, 贵州师范大学博士科研启动项目, GZNUD[2018] 26 号, 表皮生长因子对脂多糖诱导猪小肠上皮细胞谷氨酰胺及葡萄糖吸收转运的影响, 2019-06 至 2022-05, 结题, 主持
(5)国家自然科学基金面面上项目,31572419,EGF对猪小肠磷吸收通道蛋白NPT-IIb调控的分子机制,2016.1至2017.12,已结题,参加
(6)湖南省自然基金面上项目,2018JJ2163,表皮生长因子对脂多糖诱导猪小肠上皮细胞屏障功能的影响及作用机制,2018.1至2020.12,在研,参加
(7)长沙市科技项目,kh1601185,EGF对仔猪肠道健康的影响与肠道调节剂的研制,2015.9至2017.9,已结题,参加
(8)湖南省研究生科研创新项目,CX2016B276,EGF对LPS诱导仔猪肠道健康及磷吸收的影响,2016.5至2017.5,已结题,主持
3. 代表性论文
[1] Tang X et al. Epidermal growth factor and intestinal barrier function, Mediators of inflammation, 2016, 2016, 1927348.
[2] Tang X et al. Effects of fermented cottonseed meal and enzymatic hydrolyzed cottonseed meal on amino acid digestibility and metabolic energy in white leghorn rooster, Pakistan Journal of Zoology, 2018, 50(3): 957-962.
[3] Tang X et al. Epidermal Growth Factor, through Alleviating Oxidative Stress, Protect IPEC-J2 Cells From Lipopolysaccharides-induced Apoptosis, International journal of molecular sciences, 2018,19,848.
[4] Tang X et al. Acute effect of epidermal growth factor on phosphate diffusion across intestinal mucosa using the Ussing chamber system, Pakistan Journal of Zoology, 2019, 51(6): 2209-2216.
[5] Tang X et al. Effects of calcitonin on porcine intestinal epithelial cells growth, phosphorus absorption, and NaPi-IIb expression, Pakistan journal of zoology, 2019, 51(6): 2167-2174.
[6] Tang X et al. The nutritive value of palm kernel cake and its application in low quality diets of broiler chickens. Pak. J. Agri. Sci., 2021, 58(5): 1429-1436.
[7] Tang X et al. Effects of Epidermal Growth Factor on Glutamine and Glucose Absorption by IPEC-J2 Cells Challenged by Lipopolysaccharide using the Ussing Chamber System. Pakistan Journal of Zoology, 2021, 53(2): 417-422.
[8] Tang X et al. Effects of Corn Distillers Dried Grain with Solubles on Growth Performance and Economic Benefit of Meat Ducks. Pakistan Journal of Zoology, 2021,53(3): 821-826.
[9] Tang X et al. Mechanisms of epidermal growth factor effect on animal intestinal phosphate absorption: a review. Front Vet Sci., 2021, 8: 670140.
[10] Tang X et al. Potential Application of Lonicera japonica Extracts in Animal Production: From the Perspective of Intestinal Health. Front. Microbiol., 2021, 12: 719877.
[11] Tang X et al. Effects of Microbial Fermented Feed on Serum Biochemical Profile, Carcass Traits, Meat Amino Acid and Fatty Acid Profile, and Gut Microbiome Composition of Finishing Pigs. Front Vet Sci., 2021, 8: 744630.
[12] Tang X et al. Effects of Dietary Probiotic (Bacillus subtilis) Supplementation on Carcass Traits, Meat Quality, Amino Acid, and Fatty Acid Profile of Broiler Chickens. Front Vet Sci., 2021, 8:767802.
[13] Tang X et al. Intrauterine Growth Retardation Affects Intestinal Health of Suckling Piglets via Altering Intestinal Antioxidant Capacity, Glucose Uptake, Tight Junction, and Immune Responses. Oxid Med Cell Longev. 2022, 2022: 2644205.
[14] Tang X et al. Curcumin and Intestinal Oxidative Stress of pigs with Intrauterine Growth Retardation: A Review. Front. Nutr. 2022, 9: 847673.
[15] Tang X et al. Effects of Dietary Replacement of Soybean Meal with Corn Distillers Dried Grain with Solubles on Growth Performance and Carcass Characteristics of Broilers. Pakistan Journal of Zoology, 2022,54(4): 1691-1697.
[16] Tang X et al. Effects of Epidermal Growth Factor on ASCT2 Expression in IPEC-J2 Cells Challenged by Lipopolysaccharide. Pakistan Journal of Zoology, 2022,54(4):1969-1972
[17] Tang X et al. Epidermal growth factor activates EGFR/AMPK signalling to up-regulate the expression of SGLT1 and GLUT2 to promote intestinal glucose absorption in lipopolysaccharide challenged IPEC-J2 cells and piglets. Italian Journal of Animal Science. 2022. 21 (1): 943-954
[18] Tang X et al. Fecal Microbial Changes in Response to Finishing Pigs Direct Fed with Fermented Feed. Front Vet Sci., 2022, 9: 894909.
[19] Tang X et al. Dietary Epidermal Growth Factor Supplementation Alleviates Intestinal Injury in Piglets with Intrauterine Growth Retardation via Reducing Oxidative Stress, and Enhancing Intestinal Glucose Transport and Barrier Function. Animals, 2022, 12, 2245.
[20] Tang X, et al. Weaning stress and intestinal health of piglets: A review. Front. Immunol. 2022, 13:1042778.
[21] Tang X, et al. Lipopolysaccharide promotes apoptosis and oxidative injury of porcine small intestinal epithelial cells by downregulating the expression of glutamine transporter ASCT2. J. Anim. Sci. 2023, 101, skad229.
[22] Tang X, et al. Effects of dietary epidermal growth factor supplementation on liver antioxidant capacity of piglets with intrauterine growth retardation. J. Anim. Sci. 2023, 101, skad323.
[23] Tang X. Probiotic Roles of Clostridium butyricum in Piglets: Considering Aspects of Intestinal Barrier Function. Animals, 2024, 14, 1069.
[24] Tang X, et al. The Inflammatory Injury of Porcine Small Intestinal Epithelial Cells Induced by Deoxynivalenol is Related to the Decrease of Glucose Transport. J. Anim. Sci. 2024, 102, skae107.
一审(校):黄登红;二审(校):邓琴;三审(校):朱大运