教育经历
1996.9-2000.7,四川大学,理学学士,专业:生物技术
2000.9-2003.7,中山大学,理学硕士,专业:遗传学
2008.9-2013.12,汕头大学,理学博士,专业:海洋生物学
工作经历
2003.9-2018.12,汕头大学海洋生物研究所,助理研究员/副教授
2019.1-现在,汕头大学理学院生物系,副教授,系主任
科研情况
主要从事鱼类营养与饲料学暨鱼类脂质分子营养学研究,具体包括:① 鱼类LC-PUFA合成代谢通路及分子调控机制研究;② 鱼类糖脂代谢通路互作分子机制研究;③ 具有调节鱼类脂质代谢活性物质的开发及其机制研究;④ 海藻饲料化利用研究;⑤ 基于高糖高脂的高效环保配合饲料研发。
主持科研项目
1. 国家自然科学基金面上项目:辛酸通过激活AKT促进黄斑蓝子鱼LC-PUFA合成的分子机制研究,项目编号:32373146,2024-2027,50万元。
2. 广东省重点研发计划项目:鱼虾苗和亲本培育营业需求及人工配合饲料开发及示范,项目编号:2021B02002050001,2021-2023,45万元。
3. 广东省现代农业产业体系创新团队:淡水鱼产业创新团队(饲料研制岗位),项目编号:2019-23KJ150,2019-2023,28万元。
4. 普通高校重点领域专项(乡村振兴):鱼类高效环保配合饲料的开发及应用,项目编号:2020ZDZXlO14,2021-2023,20万元。
5. 广东省自然科学基金项目:盐度对日本鳗鲡HUFA合成特性的影响研究,项目编号:2018A030313910,2018-2021,10万元。
6. 广东省促进经济高质量发展专项资金海洋经济发展项目:卵形鲳鯵高效低成本环保配合饲料的研发及其产业化应用,项目编号:GDOE[2019]A30号,2019-2020,30万元。
7. 广东省农业科技特派员精准扶贫乡村振兴入库项目:海水鱼网箱养殖技术服务及配合饲料推广,2019,10万元。
8. 国家自然科学基金青年基金项目:鱼类脂肪酸去饱和酶的底物识别与偏好性机制研究,项目编号:31202011,2013-2015年,25万元。
主要论文
1.Liu, Z.#, Li, W.#, Xie, D., Xie, C., Chen, R., Li, L., Lin, Y., Hong, D., Tocher, D. R., & Wang, S.* (2024). Xylose and arabinose as potential feed additives to mitigate growth retardation and excess lipid deposition in rabbitfish (Siganus canaliculatus) fed a high-starch diet. Aquaculture Reports, 36, 102143.
2.Ding, H., Hu, Y., Chen, P., Zhu, X., Wang, B., Cheng, C., Tian, T., Zhang, D., Wang, S.*, & Li, Y*. (2024). Genome-wide identification and functional characterization of fatty acyl desaturase (fads2) gene in Chinese sturgeon (Acipenser sinensis). Aquaculture Reports, 38, 102338.
3.Ding, H., Shi, X., Wen, Z., Zhu, X., Chen, P., Hu, Y., Xiao, K., Yang, J., Tian, T., Zhang, D., Wang, S.*, & Li, Y*. (2024). Molecular identification and functional characterization of LC-PUFA biosynthesis elongase (elovl2) gene in Chinese sturgeon (Acipenser sinensis). Animals, 14, 2343.
4.Shao, Y., Xie, S., Liang, C., Chen, D., Tocher, D. R., Lin, Y., Huang, Y., Li, D., Xie, Y., Hong, S., Wang, S.*, & You, C*. (2022). Dietary calcium pyruvate could improve growth performance and reduce excessive lipid deposition in juvenile golden pompano (Trachinotus ovatus) fed a high fat diet. Fish Physiology and Biochemistry, 48(3), 555–570.
5.Li, Y.#, Liang, S.#, Shao, Y., Li, Y., Chen, C., You, C., Monroig, Ó., Rahimnejad, S., Tocher, D. R., & Wang, S.* (2021). Impacts of dietary konjac glucomannan supplementation on growth, antioxidant capacity, hepatic lipid metabolism and inflammatory response in golden pompano (Trachinotus ovatus) fed a high fat diet. Aquaculture, 545, 737113.
6.Guo, H.#, Chen, C.#, Yan, X., Li, Y., Wen, X., You, C., Monroig, Ó., Tocher, D. R., & Wang, S.* (2021). Effects of different dietary oil sources on growth performance, antioxidant capacity and lipid deposition of juvenile golden pompano Trachinotus ovatus. Aquaculture, 530, 735923.
7.Xie, D., Chen, C., Dong, Y., You, C., Wang, S.*, Monroig, Ó.*, Tocher, D. R., & Li, Y*. (2021). Regulation of long-chain polyunsaturated fatty acid biosynthesis in teleost fish. Progress in Lipid Research, 82, 101095–101095.
8.He, Y.#, Hou, H.#, Wang, S.#, Lin, R., Wang, L., Yu, X., & Qiu, X. (2021). From waste of marine culture to natural patch in cardiac tissue engineering. Bioactive Materials, 6(7), 2000–2010.
9.Xu, W., Wang, S.*, You, C., Zhang, Y., Monroig, D. R., Tocher, D. R., & Li, Y*. (2020). The catadromous teleost Anguilla japonica has a complete enzymatic repertoire for the biosynthesis of docosahexaenoic acid from α-linolenic acid: Cloning and functional characterization of an Elovl2 elongase. Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology, 240, 110373.
10.Wang, S.*#, Wang, M.#, Zhang, H., Yan, X., Guo, C., You, C., Tocher, D. R., Chen, D., & Li, Y*. (2020). Long-chain polyunsaturated fatty acid metabolism in carnivorous marine teleosts: Insight into the profile of endogenous biosynthesis in golden pompano Trachinotus ovatus. Aquaculture Research, 51(2), 623–635.
11.Sun, J., Chen, C., You, Y., Liu, H., Ma, Monroig, Ó., Tocher, D. R., Wang, S.*, & Li, Y*. (2020). The miR-15/16 cluster is involved in the regulation of vertebrate LC-PUFA biosynthesis by targeting pparγ as demonstrated in rabbitfish Siganus canaliculatus. Marine Biotechnology, 22(4), 475–487.
12.Li, Y., Wen, Z., Chen, Z., Xie, D., Tocher, D. R., Zhang, S., Wang, S.*, & Li, Y*. (2020). Genome-wide identification and functional characterization of two LC-PUFA biosynthesis elongase (elovl8) genes in rabbitfish (Siganus canaliculatus). Aquaculture, 522, 735127.
13.Zhang, M., Chen, C., You, B., Chen, S., Wang, S.*, & Li, Y*. (2019). Effects of different dietary ratios of docosahexaenoic to eicosapentaenoic acid (DHA/EPA) on the growth, non-specific immune indices, tissue fatty acid compositions and expression of genes related to LC-PUFA biosynthesis in juvenile golden pompano Trachinotus ovatus. Aquaculture, 505, 488–495.
14.Sun, J., Zheng, L., Chen, C., Zhang, J., Zhang, C., You, Q., Zhang, H., Monroig, D. R., Tocher, D. R., Wang, S.*, & Li, Y*. (2019). MicroRNAs involved in the regulation of LC-PUFA biosynthesis in teleosts: miR-33 enhances LC-PUFA biosynthesis in Siganus canaliculatus by targeting insig1 which in turn upregulates srebp1. Marine Biotechnology, 21(4), 475–487.
15.Li, Y., Zhao, Y., Dong, Z., Yin, Y., Li, Y., Liu, C., You, C., Monroig, D. R., Tocher, D. R., & Wang, S.* (2019). Sp1 is involved in vertebrate LC-PUFA biosynthesis by upregulating the expression of liver desaturase and elongase genes. International Journal of Molecular Sciences, 20, 5066.
16.Chen, C.#, Wang, S.#, Zhang, M., Chen, B., You, C., Xie, D., Liu, Y., Monroig, D. R., Tocher, D. R., Waiho, K., & Li, Y. (2019). miR-24 is involved in vertebrate LC-PUFA biosynthesis as demonstrated in marine teleost Siganus canaliculatus. Biochimica et Biophysica Acta, 1864(5), 619–628.
17.Wang, S.*, Chen, J., Jiang, D., Zhang, C., You, C., Tocher, D. R., Monroig, Ó., Dong, Y., & Li, Y. (2018). Hnf4α is involved in the regulation of vertebrate LC-PUFA biosynthesis: insights into the regulatory role of Hnf4α on expression of liver fatty acyl desaturases in the marine teleost Siganus canaliculatus. Fish Physiology and Biochemistry, 44(3), 805–815.
18.Chen, C., Zhang, J., Zhang, M., You, Y., Liu, S., Wang, S.*, & Li, Y. (2018). miR-146a is involved in the regulation of vertebrate LC-PUFA biosynthesis by targeting elovl5 as demonstrated in rabbitfish Siganus canaliculatus. Gene, 676, 306–314.
获奖情况
1. 广东省自然科学二等奖:鱼类必需脂肪酸合成的分子基础及调控机制研究,广东省教育厅,2023年度。(排名第二)
2. 海洋科学技术奖二等奖:华贵栉孔扇贝“南澳金贝”的培养技术研究及应用,国家海洋局,2018年度。(排名第六)
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