以下信息为主动公开的研究生招生宣传信息
目录
王修启   更新日期: 2024年7月8日
王修启,男,汉族,1968年3月生,河南人,中共党员,博士研究生学历,农学博士,研究员,博、硕导。
工作单位   动物科学学院
单位电话  020-38295462
邮箱地址  xqwang@scau.edu.cn
个人简介
招生方向:动物营养与饲料科学
研究方向:(1)成体干细胞(肠道干细胞和骨骼肌卫星细胞);(2)蛋白质代谢(氨基酸转运、感应和蛋白质合成);(3)功能性饲料添加剂。
目前主持十四五重点研发计划中美国际合作项目1项、国家基金面上项目2项,广东省国际合作项目1项,十四五重点研发计划项目子课题1项。先后完成国家基金重点项目, NSFC-广东联合基金重点项目、国家基金面上项目;十三五重点研发计划项目子课题2项、973项目子课题2项;广东省重大科技专项、广东省基金重点项目、广东省国际合作项目、948重点项目课题、动物福利行业专项课题、广东省科技计划项目、广东省教育厅重点项目、广州市国际合作项目、广州市科学研究项目等科研课题。2011年以来发表SCI论文80多篇,已授权发明专利10项,在审发明专利3项。建立分子营养实验室,共建“华农-快大猪营养研究中心”。
创建猪肠道干细胞-类器官培养体系,围绕呕吐毒素、大肠杆菌耐热肠毒素和PEDV等损伤猪肠道干细胞发育的机制及其营养干预,取得突破性进展,居于国际领先水平。
工作经历
1990.7-1991.9: 新乡县小冀镇政府,主要从事行政管理、畜牧兽医技术推广工作。
1994.7-2004.8: 河南省农业科学院畜牧兽医研究所,2000年单列晋升副研究员。
2006.7- : 动物科学学院动物营养与饲料科学系,2007年晋升研究员。
教育经历
1986.9-1990.7 河南农业大学畜牧专业本科毕业(农学学士)
1991.9-1994.7 河南农业大学动物生理生化专业消化生理方向(理学硕士)
2002.9-2003.12 南京农业大学动物营养生理与分子营养方向(农学博士)
2004.8-2006.7 畜牧学博士后
2012.2-2013.2 美国Texas A & M University访问学者
社会、学会及学术兼职
国家生猪产业技术创新战略联盟副理事长;中国畜牧兽医学会动物营养分会理事,动物生理生化分会理事,广东省细胞生物学会理事。The Journal of Nutritional Biochemistry, British Journal of Nutrition, Journal of Agricultural and Food Chemistry, Food & Function,Animal nutrtion, Chemico-Biological Interactions, Journal of Animal Science, Animal, Canadian Journal of Animal Science, Journal of Applied Animal Research, Amino Acids, Genes and Nutrition, Cell Proliferation, The Journal of Animal Physiology and Animal Nutrition, Poultry Science, British Poultry Science, The Journal of Poultry Science, Annals of Animal Science, Journal of Integrative Agriculture, Molecular and Cellular Biochemistry, Asian-Australasian Journal of Animal Sciences, Czech Journal of Animal Science, CyTA - Journal of Food, Small Ruminant Research, International journal of food properties, Animal Production Sciences等国际期刊审稿专家。
研究领域
以猪肠道干细胞和骨骼肌卫星细胞为模型,开展命运决定与营养调控研究;围绕机体蛋白质代谢,解析氨基酸转运、感应及蛋白质合成的分子机制;依托基础研究的突破性进展,创制新型饲料添加剂,评价功能性饲料添加剂的生物活性。
科研项目
(1) 2024.4.1-2027.3.31 广州市重点研发计划—桑叶源Morin干预畜禽肠道细菌性氧化应激的应用研究(2024B03J1267)
(2) 2023.12-2026.11 十四五国家重点研发计划中美国际合作项目——早期断奶应激影响仔猪肠道干细胞和菌群发育及其互作的分子机制(2023YFE0124400)
(3) 2022.12-2027.11十四五国家重点研发计划子课题——仔猪肠道损伤修复机制及营养调控(2022YFD130040308)
(4) 2022.1-2023.12 广东省国际合作项目——Cystinosin介导赖氨酸缺乏诱导自噬维持mTORC1活性抵抗猪骨骼肌生长抑制的机制研究(2022A0505050064)
(5) 2021.1-2024.12国家自然科学基金面上项目——TSC2/mTORC1轴介导呕吐毒素损伤仔猪小肠干细胞扩增的机制及营养调控(32072777)
(6) 2019.1-2022.12 国家自然科学基金面上项目——呕吐毒素损伤猪肠道干细胞发育的机制及营养干预(31872389)
(7) 2020.1-2022.12广东省基础与应用基础基金项目——干细胞驱动的仔猪小肠损伤修复机制及其调控(2019B1515210021)
(8) 2016.9-2020.12 广东省家禽产业技术体系创新团队家禽营养岗位科学家(2020LM1116)
(9) 2018.4-2020.3 广州市国际合作项目——EAAT3介导谷氨酸转运促进仔猪肠上皮发育的机制(201807010001)
(10) 2014.1-2018.12 国家自然科学基金重点项目(共同PI)——仔猪小肠上皮隐窝绒毛轴更新与蛋白质代谢的分子机制(31330075)
(11) 2016.7-2020.12 十三五国家重点研发计划——“环境影响畜禽生长免疫的生理机制”子课题“温热环境对猪肠道结构和功能的影响及机制(2016YFD0500501)”
(12) 2018.1-2020.12 十三五国家重点研发计划——“日粮组成与饲养体制对畜禽健康优质肉形成调控及机制”子课题“肌纤维类型的形成规律与营养对其组成的调控”(2018YFD0500403)
(13) 2016.1-2017.12 广东省国际合作项目——猪骨骼肌卫星细胞迁移的分子机制及其调控(2016A050502045)
(14) 2015.1-2016.12 广州市科学研究项目——mTOR信号通路调控猪骨骼肌卫星细胞增殖、生长和分化的分子机制(201510010020)
(15) 2013.1-2014.12 广东省教育厅科技创新重点项目——断奶仔猪安全生产关键技术研究与示范(2012CXZD0015)
(16) 2013.1-2015.12 广东省科技厅项目——断奶仔猪高效生产关键技术研究(2012B020305006)
(17) 2013.1-2017.12 973项目——“猪利用氮营养素的机制及营养调控”子课题“肠道黏膜氨基酸感应-转运机制研究”(2013CB127302)
(18) 2012.1-2016.12 973项目——“猪肌纤维发育与肌内脂肪沉积的机制及营养调控”子课题“猪骨骼肌mTOR信号通路网络解析”(2012CB124704)
(19) 2012.7-2015.6 广东省星火计划项目——“全进全出”制肉鸽养殖新模式关键技术集成与示范(2012A020603012)
(20) 2011.1-2015.12 948重点项目课题——猪应激相关基因功能评价研究(2011-G35)
(21) 2010.1-2014.12公益性行业(农业)科研专项——“畜禽福利养殖关键技术体系研究与示范”课题“猪鸡福利养殖营养调控关键技术研究”(201003011)
(22) 2010.1-2013.12 国家自然科学基金—广东联合基金重点项目——广东优质黄羽肉鸡蛋白质代谢的分子机理及其调控(U0931004)
(23) 2009.7-2012.6 广东省重大科技专项——粤东地区规模化猪场零排放关键技术集成研究与示范(2009A080303009)
(24) 2007.1-2009.12 国家自然科学基金项目——猪肠道碱性氨基酸转运载体参与赖氨酸吸收的分子机制(30671519)
(25) 2007.7-2010.6 广东省教育部产学研合作项目——肉鸽产业化新模式关键技术研究与综合示范(2007B090400070)
发表论文
1、SCI论文(2019-2024,* 通讯作者):
(1) Zhou J. Y., Xie W. W., Hu T. C., Wang X. F., Yan H. C, Wang X. Q.*. Mulberry leaf-derived Morin activates β-catenin by binding to Frizzled7 to promote intestinal stem cell expansion upon heat-stable enterotoxin b injury. Journal of Agricultural and Food Chemistry, 2024, DOI: 10.1021/acs.jafc.3c09909. IF: 6.100.  
(2) Zan G. X., Wang X. F., Yan S. K., Qin Y. C., Yao L. Q., Gao C. Q., Yan H. C., Zhou J. Y., Wang X. Q.*. Matrine reduced intestinal stem cell damage in eimeria necatrix-infected chicks via blocking hyperactivation of Wnt signaling, Phytomedicine, 2024, 128:155363. IF:7.8996
(3) Liang S. J., Wang X. Q.*. Deoxynivalenol induces intestinal injury: insights from oxidative stress and intestinal stem cells, Environmental Science and Pollution Research, 2023,30, 48676–48685, IF:5.1903
(4) Wei Y. H., Ma X., Zhao J. C., Wang X. Q., Gao C. Q. *. Succinate metabolism and its regulation of host-microbe interactions, Gut Microbes, 2023, 15(1): 2190300, DOI: 10.1080/19490976.2023.2190300 IF:12.200
(5) Zhu C., Liang S. J., Zan G. X., Gao C. Q., Yan H. C., Wang X. Q., Zhou J. Y.*. Selenomethionine alleviates DON-induced oxidative stress via Keap1/Nrf2 signaling in the small intestinal epithelium. Journal of Agricultural and Food Chemistry, 2023, 71, 895-904. IF:5.895
(6) Zan G. X., Qin Y. C., Xie W. W., Gao C. Q., Yan H. C., Wang X. Q., Zhou J. Y.*. Heat stress disrupts intestinal stem cell migration and differentiation along the crypt-villus axis through FAK signaling. Biochimica et Biophysica Acta -Molecular Cell Research, 2023,1870 :119431,IF:5.011
(7) Qin Y. C.#, Zhou J. Y. #, Zhu M., Zan G. X., Gao C. Q., Yan H. C., Li X. G.*, Wang X. Q.*. L -Glutamate requires β-catenin signalling through frizzled7 to stimulate porcine intestinal stem cell expansion. Cellular and Molecular Life Science, 2022, 79:523. IF: 9.237; IF5y:10.002
(8) Zhou J. Y., Zan G. X., Zhu Q. J., Gao C. Q., Yan H. C., Wang X. Q.*. Recombinant porcine R-spondin 1 facilitates intestinal stem cell expansion along the crypt villus axis through potentiating Wnt/β catenin signaling in homeostasis and deoxynivalenol injury. Journal of Agricultural and Food Chemistry, 2022, 70 (34) :10644-10653. IF5y:6.0485
(9) Jin C. L., Ye M., Song Z. W., Zhang Z. M., Gao C. Q., Yan H. C., Wang X. Q.*. Lysine interacts with frizzled7 to activate βcatenin in satellite cell participated skeletal muscle growth. Journal of Agricultural and Food Chemistry, 2022,70:3745–3756.  IF5y:6.0485
(10) Ren L. L., Zhou J. Y., Liang S. J., Wang X. Q.*. Impaired intestinal stem cell activity in ETEC invasion: enterotoxins, cyclic nucleotides, and Wnt signaling. Archives of Toxicology,2022, 96(5):1213–1225. IF5y:6.3039
(11) Li X. G., Chen M. X., Zhao S. Q.*, Wang X. Q.*. Intestinal models for personalized medicine: from conventional models to microfluidic primary intestine-on-a-chip. Stem Cell Reviews and Reports, 2022,18 (6) :2137-2151. IF:6.6925
(12) Zhou J. Y., Huang D. G., Gao C. Q., Yan H. C., Zou S. G., Wang X. Q.*. Heat-stable enterotoxin inhibits intestinal stem cell expansion to disrupt the intestinal integrity by downregulating the Wnt/β-catenin pathway. Stem Cells, 2021, 39:482-496. IF:6.277
(13) Zhou J. Y., Lin H. L., Qin Y. C., Li X. G., Gao C. Q., Yan H. C., Wang X. Q.*. L-Carnosine protects against deoxynivalenol-induced oxidative stress in intestinal stem cells by regulating the Keap1/Nrf2 signaling pathway. Molecular Nutrition and Food Research,2021,65,2100406. IF:5.914
(14) Liu Z. H., Xie W. W., Zan G. X., Gao C. Q., Yan H. C., Zhou J. Y.*, Wang X. Q.*. Lauric acid alleviates deoxynivalenolinduced intestinal stem cell damage by potentiating the mTORC1 signaling pathway. Chemico-Biological Interactions, 2021, 2021, 348,109640. IF: 5.192
(15) Liang S. J., Zhou J. Y., Wang X. Q.*. Signaling network centered on mTORC1 dominates mammalian intestinal stem cell ageing. Stem Cell Reviews and Reports, 2021, 17:842–849. IF:5.739
(16) Shahid Ali Rajput, Liang S. J., Wang X. Q.* , Yan H. C.*. Lycopene Accelerates Stem Cell Regeneration to Alleviate Deoxynivalenol-induced Intestinal Epithelial Oxidative Damage via Regulating Keap1/Nrf2 Signaling, Antioxidants, 2021, 10, 1493. IF: 6.312
(17) Shahid Ali Rajput, Wang X. Q.*, Yan H. C.*. Morin hydrate: a comprehensive review on novel natural bioactive compound with versatile biological and pharmacological potential. Biomedicine & Pharmacotherapy, 2021, 13: 111511. IF:6.529
(18) Zhou J. Y., Lin H. L., Wang Z., Zhang S. W., Huang D. G., Gao C. Q., Yan H. C., Wang X. Q.*. Zinc L-aspartate enhances intestinal stem cell activity to protect the integrity of the intestinal mucosa against deoxynivalenol through activation of the Wnt/β-catenin signaling pathway. Environmental Pollution, 2020, 262: 114290. IF:8.071
(19) Zhou J. Y., Huang D. G., Zhu M., Gao C. Q., Yan H. C., Wang X. Q.*.  Wnt/β-catenin mediated heat exposure inhibits intestinal epithelial cell proliferation and stem cell expansion through endoplasmic reticulum stress. Journal of Cellular Physiology, 2020, 235:5613–5627. IF: 6.384
(20) Zhu M., Wang X. Q.*. Regulation of mTORC1 by small GTPases in response to nutrients.  Journal of Nutrition, 2020,150(5): 1004-1011.  IF:4.798
(21) Zhu M., Qin Y. C., Gao C. Q., Yan H. C., Wang X. Q.*. L-glutamate drives porcine intestinal epithelial renewal by increasing stem cell activity via upregulation of the EGFR-ERK-mTORC1 pathway.  Food& Function, 2020, 11:2714-2724. IF:5.396
(22) Li Y., Wang X. F., Wang X. Q., Wang J. J., Zhao J. C.*. Life-long dynamics of the swine gut microbiome and their implications in probiotics development and food safety. Gut Microbes. 2020, 11(6):1824-1832. IF: 10.245
(23) Song Z.W., Jin C.L., Ye M., Gao C.Q., Yan H.C., Wang X. Q.*.  Lysine Inhibits Apoptosis in Satellite Cells to Govern Skeletal Muscle Growth Via the JAK2/STAT3 Pathway. Food& Function, 2020, 11(5): 3941 - 3951. IF:5.396
(24) Jin C. L.#, Zhang Z. M. #, Song Z. W., Gao C. Q., Yan H. C., Wang X. Q.*. mTORC1-mediated satellite cell differentiation is required for lysine-induced skeletal muscle growth. Journal of Agricultural and Food Chemistry,2020, 68:4884−4892. IF:5.279
(25) Jin C. L.#, Zeng H. R.#, Gao C. Q., Yan H. C., Tan H. Z., Wang X. Q.*. Dietary supplementation with pioglitazone hydrochloride and chromium methionine manipulates lipid metabolism with related genes to improve the intramuscular fat and fatty acid profile of yellow-feathered chickens. Journal of the Science of Food and Agriculture, 2020, 100: 1311–1319. IF: 3.638
(26) Jin C. L.#, Zeng H. R.#, Xie W. Y., Gao C. Q., Yan H. C., Wang X. Q.*. Dietary supplementation with pioglitazone hydrochloride improves intramuscular fat, fatty acid profile, and antioxidant ability of thigh muscle in yellow-feathered chickens. Journal of the Science of Food and Agriculture, 2020; 100: 665–671. IF: 3.638
(27) Zhou J. Y., Huang D. G., Qin Y. C., Li X. G., Gao C. Q., Yan H. C., Wang X. Q.*. mTORC1 signaling activation increases intestinal stem cell activity and promotes epithelial cell proliferation. Journal of Cellular Physiology, 2019,234:19028–19038. IF: 6.384
(28) Zhou J. Y., Zhang S. W., Lin H. L., Gao C. Q., Yan H. C., Wang X. Q.*. Hydrolyzed wheat gluten alleviates deoxynivalenol-induced intestinal injury by promoting intestinal stem cell proliferation and differentiation via upregulation of Wn/beta-catenin signaling in mice. Food and Chemical Toxicology, 2019, 131: 110579. IF:6.023
(29) Zhou J. Y., Wang Z., Zhang S. W., Lin H. L., Gao C. Q., Zhao J. C., Yang C. B., Wang X. Q.*. Methionine and its hydroxyl analogues improve stem cell activity to eliminate deoxynivalenol-induced intestinal injury by reactivating Wnt/β-catenin signaling. Journal of Agricultural and Food Chemistry, 2019, 67,  11464-11473. IF:5.279
(30) Zhu M., Qin Y. C., Gao C. Q., Yan H. C., Li X. G.*, Wang X. Q.*. Extracellular glutamate-induced mTORC1 activation via the IR/IRS/PI3K pathway supports the expansion of porcine intestinal stem cells. Journal of Agricultural and Food Chemistry, 2019, 67:9510-9521. IF: 5.279
(31) Li X. G., Zhu M., Chen M. X., Fan H. B., Fu H. L., Zhou J. Y., Zhai Z. Y., Gao C. Q., Yan H. C., Wang X. Q.*. Acute exposure to deoxynivalenol inhibits porcine enteroid activity via suppression of the Wnt/β-catenin pathway.  Toxicology Letters, 2019, 305:19-31. IF:4.372
(32)  Jin C. L., Zhang Z. M., Ye J. L., Gao C. Q., Yan H. C., Li H. C., Yang J. Z., Wang X. Q.*. Lysine-induced swine satellite cell migration is mediated by the FAK pathway.  Food& Function, 2019, 10, 583 - 591. IF: 5.396
(33) Liang S. J., Li X. G., Wang X. Q.*.Notch signaling in mammalian intestinal stem cells: maintaining homeostasis and determining cell fate. Current Stem Cell Research & Therapy, 2019,14(7): 583-590. IF:3.828.
2、国际会议论文(2016-2022)
(1) Qin Y. C., Zan G. X., Ding S. J., Gao C. Q., Yan H. C., Kong X. F., Wang X. Q.*. Nrf2 Pathway Mediates Resistance to Weaning Stress induced Intestinal Injury in Piglets of Different Breeds. 2022 ASAS-CSAS Annual Meeting & Trade Show. 2022, June 26 30, Oklahoma City, Oklahoma, USA.
(2) Jin C. L., Ye M., Song Z. W., Gao C. Q., Yan H. C., Wang X. Q.*. Frizzled7 mediates lysine-activated β catenin to promote satellite cells in manipulating skeletal muscle growth. 2022, June 26-30, Oklahoma City, Oklahoma, USA.
(3) Zhou J. Y., Liu Z. H., Gao C. Q., Yan H. C., Wang X. Q.*. Iturin A protects the intestinal mucosal integrity against E. coli containing the gene coding for heat-stable enterotoxin b. 2021 ASAS-CSAS Annual Meeting & Trade Show. 2021, July 14-17, Louisville, Kentucky, USA.
(4) Ye M., Song Z. W., Jin C. L., Gao C. Q., Yan H. C., Wang X. Q.*. Satellite cells participate in the Wnt/Ca2+ pathway controlled porcine myofiber determination. 2021 ASAS-CSAS Annual Meeting & Trade Show. 2021, July 14-17, Louisville, Kentucky, USA.
(5) Song Z. W., Jin C. L., Ye M., Gao C. Q., Yan H. C., Wang X. Q.*. JAK2-STAT3 pathway mediated satellite cell apoptosis to govern skeletal muscle growth with Lysine. 2020 ASAS-CSAS Annual Meeting & Trade Show. 2020, July 19-23, Madison, Wisconsin, USA.
(6) Zhu M., Qin Y. C., Zhou J. Y., Gao C. Q., Yan H. C., Wang X. Q.*. mTORC1 sensing glutamate signal to promote porcine intestinal development by accelerating intestinal stem cell expansion. 2020 ASAS-CSAS Annual Meeting & Trade Show. 2020, July 19-23, Madison, Wisconsin, USA.
(7) Zhu M., Qin Y. C., Gao C. Q., Yan H. C., Li X. G., Wang X. Q.*. L-glutamate promotes porcine intestinal stem cell activity and intestinal growth via up-regulation the Wnt/β-catenin pathway. 2019 ASAS-CSAS Annual Meeting & Trade Show. 2019, July 8-11, Austin, Texas, USA.
(8) Zhou J. Y., Zhang S. W., Lin H. L., Gao C. Q., Yan H. C., Wang X. Q.*. Hydrolyzed wheat gluten alleviates deoxynivalenol-induced intestinal injury by promoting intestinal stem cell expansion via upregulation of Wnt/β-catenin signaling in mice. 2019 ASAS-CSAS Annual Meeting & Trade Show. 2019, July 8-11, Austin, Texas, USA.
(9) Huang D. G., Zhou J. Y., Gao C. Q., Yan H. C., Wang X. Q.*. Escherichia coli heat-stable enterotoxin destroying intestinal mucosal barrier function by downregulation Wnt/β-catenin signaling. 2019 ASAS-CSAS Annual Meeting & Trade Show. 2019, July 8-11, Austin, Texas, USA.
(10) Jin C. L., Gao C. Q., Yan H. C., Wang X. Q.*. Dietary Lysine rescue improves growth performance, muscle growth and meat quality of weaned piglets. 2019 ASAS-CSAS Annual Meeting & Trade Show. 2019, July 8-11, Austin, Texas, USA.
(11) Zhang Z. M., Gao C. Q., Yan H. C., Wang X. Q.*. Wnt/β-catenin pathway is required for porcine satellite cell proliferation and differentiation to promote skeletal muscle growth. 2019 ASAS-CSAS Annual Meeting & Trade Show. 2019, July 8-11, Austin, Texas, USA.
(12) Xie W. Y., Chen M. J., Jiang S. G., Yan H. C., Wang X. Q.*, Gao C. Q.*. Wnt/β-catenin signaling pathway regulates the feather follicle morphogenesis and development in broiler chickens. 2019 PSA Annual Meeting. 2019, July 15-18, Montreal, Quebec, Canada.
(13) Pan N. X., Xie W. Y., Jiang S. G., Chen M. J., Wang X. Q., Yan H. C., Gao C. Q.*. Target of rapamycin complex 1 signaling pathway mediates crop milk protein synthesis in domestic pigeons (Columba livia). 2019 PSA Annual Meeting. 2019, July 15-18, Montreal, Quebec, Canada.
(14) Jin C. L., Gao C. Q., Zhang Z. M., Yan H. C., Wang X. Q.*. Lysineinduced stimulation of proliferation, differentiation and migration in swine satellite cells is mediated by the mTORC1 and FAK pathways. 2018 ASAS-CSAS Annual Meeting & Trade Show. 2018, July 8-12, Vancouver, British Columbia, Canada.
(15) Jin C. L., Gao C. Q., Wang Q., Yan H. C., Wang X. Q.*. Pioglitazone hydrochloride combined with vitamin e or chromiummethionine improves meat quality and muscle antioxidant ability in finishing pigs. 2018 ASAS-CSAS Annual Meeting & Trade Show. 2018, July 8-12, Vancouver, British Columbia, Canada.
(16) Zhou J. Y., Li X. G., Gao C. Q., Yan H. C., Wang X. Q.*. Heat exposure inhibits the proliferation and expansion of porcine intestinal epithelial cells and stem cells by down-regulating the Wnt/β-catenin pathway. 2018 ASAS-CSAS Annual Meeting & Trade Show. 2018, July 8-12, Vancouver, British Columbia, Canada.
(17) Li X. G., Zhu M., Chen M. X., Zhou J. Y., Gao C. Q., Yan H. C., Wang X. Q.*. Acute exposure to deoxynivalenol inhibits porcine enteroid activity and Wnt/β-catenin pathway. 2018 ASAS-CSAS Annual Meeting & Trade Show. 2018, July 8-12, Vancouver, British Columbia, Canada.
(18) Gao C. Q., Jin C. L., Yan H. C., Wang X. Q.*. FAK-mTOR pathway mediated different proliferation, migration and differentiation abilities of satellite cells in Lantang and Landrace piglets. 2017 ASAS-CSAS Annual Meeting & Trade Show. 2017, July 8-12, Baltimore, Maryland, USA.
(19) Li X. G., Chen R. Q., Gao C.Q., Chen M. X., Yan H. C., Wang X. Q.*. Bmi1 or Lgr5 promote proliferation of porcine intestinal epithelial cells by activating Wnt/β-catenin signaling pathway. 5th Symposium on Gut Health in Production of Food Animals, 2016.11
(20) Zhu M., Ye J. L., Gao C.Q., Li X. G., Sui W. G., Yan H. C., Wang X. Q.*. EAAT3 regulates proliferation of porcine intestinal epithelial cells through the mammalian target of rapamycin pathway. 5th Symposium on Gut Health in Production of Food Animals, 2016.11
科研创新
1、科研成果:
(1) “肉鸽产业化新模式关键技术研究与示范”(第1完成人), 2011年完成广东省成果登记:粤科成登字20110055
(2)肉鸽养殖“2+4”生产模式创新体系研究与示范(第1完成人),2010年度广东省农业技术推广奖3等奖
(3) “小麦抗营养因子降解技术及小麦配合饲料研究与产业化开发”, 2003年河南省科技进步2等奖(第3完成人)

2、授权发明专利:
(1) 王修启,叶茂,金成龙,秦颖超,高春起,严会超. 卷曲蛋白质7在增强肠道屏障保护功能中的应用. 专利号:ZL 202111661415X
(2) 王修启,金成龙,秦颖超,朱敏,高春起,严会超. 猪RagC基因的应用. 专利号:ZL 202110034472.9
(3) 王修启,朱敏,高春起,秦颖超,严会超. 一种猪RagA基因及其应用. 专利号:ZL 202010138108.2
(4) 王修启,朱秋杰,周加义,秦颖超,高春起,严会超. 一种猪RSPO1基因及其应用. 专利号:ZL 202010138109.7
(5) 王修启,严会超,高春起,陈荣强,李长茂. 一种猪Lgr5基因及其应用. 专利号:ZL 2015100826586.
(6) 黎相广,王喆,王修启,高春起,严会超,傅厚龙,翟振亚,陈明霞. 一种猪肠道干细胞的分离培养方法. 专利号:ZL 2015100829669
(7) 王喆,王修启,黎相广,高春起,严会超,傅厚龙,陈明霞,翟振亚,范宏博. 一种猪肠道隐窝的分离液及其分离方法. 专利号:ZL 201510080396X.
(8) 王修启,严会超. 一种环保减排的断奶仔猪饲料及其制备方法和应用. 专利号:ZL 201410405570.9
(9) 高春起,王修启,金成龙,严会超. 亮氨酸在促进种鸽鸽乳分泌和乳鸽生长方面的应用. 专利号:ZL 201710181223.6
(10) 王修启,梁少杰,陈明霞,高春起,严会超. 一种用于鉴定鸽子性别的引物,试剂盒及其鉴别方法. 专利号:ZL 2016103207489.

3、申请发明专利
(1) 王修启,周加义,昝庚秀,梁少杰,朱超,王晓帆,高春起,严会超. 一种筛选能够缓解呕吐毒素诱导的肠道损伤的药物的方法及试剂盒.申请号:2023117387542
(2) 王修启,金成龙,叶茂,穆钊坤,高春起,严会超. 猪CTNS基因在促进动物骨骼肌生长中的应用. 申请号:202210847929.2
(3) 王修启,周加义,张得香,金成龙,高春起,严会超. Wnt3a基因或其蛋白质在促进动物生长中的应用. 申请号:202111604596.2
教学活动
主讲研究生课程(博士硕士):
分子营养学;
分子营养学实验技术;
动物营养研究进展;
动物营养前沿
猪营养专题
我的团队
分子营养实验室的团队成员包括王修启研究员、严会超研究员和王晓帆教授。
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