教育背景：

2010-2016，上海交通大学，微生物学，博士

2006-2010，南京农业大学，生物技术，本科

工作经历：

2023.03—至今，深圳大学高等研究院，研究员/助理教授

2018.03—2023.02，深圳大学高等研究院，副研究员

2016.04-2018.02，汕头大学海洋生物研究所，博士后

近五年主持或参加的金项目/课题：

1.深渊海沟沉积物中古菌群落的生态分布特点及其碳氮代谢机制研究—以雅浦海沟为例.2020.01—2022.12.国家自然科学基金重大研究计划培育项目.主持.79万.

2.拟穴青蟹血淋巴共生微生物菌群的代谢功能多样性研究.2018.01—2020.12.国家自然科学基金青年科学基金项目.主持.25万.

3.拟穴青蟹的微生物组及血淋巴微生物的代谢潜能研究. 2017.01—2018.02.中国博士后科学基金面上项目二等资助.主持. 5万.

4.虾蟹血淋巴中的抗菌肽与其共生菌群的互作机制研究.2020.05—2023.05.深圳市基础研究面上项目.主持.30万.

5.华贵栉孔扇贝“南澳金贝”体内微生物组参与宿主类胡萝卜素积累的机制研究.2019.03—2021.03.深圳市基础研究自由探索项目.主持.30万.

代表性研究成果和学术奖励情况：

一、代表性论著：

1.Zhang Xinxu, Zhang C., Liu Y., Zhang R., Li Meng^*. Non-negligible roles of archaea in coastal carbon biogeochemical cycling.Trends Microbiol., 2023.

2.Zhang Xinxu, Huang Y., Liu Y., Xu W., Pan J., Zheng X., Du H., Zhang C., Lu Z., Zou D., Liu Z., Cai M., Xiong J., Zhu Y., Dong Z., Jiang H., Dong H., Jiang J., Luo Z., Huang L., Li Meng^*.An ancient respiratory system in the widespread sedimentary archaea Thermoprofundales.Mol. Biol. Evol., 2022, 39:msac213.

3.Zhang Xinxu^#, Liu Z.^#, Xu W., Pan J., Huang Y., Cai M., Luo Z., Li Meng^*. Genomic insights into versatile lifestyle of three new bacterial candidate phyla.Sci. China Life Sci.,2022. (^#Co-first author).

4. Zhang M.^#,Zhang Xinxu^#, Tran N., Sun Z., Zhang X., Ye H., Zhang Y., Ma H., Aweya J., Li Shengkang^*. Molting alters the microbiome, immune response, and digestive enzyme activity in mud crab (Scylla paramamosain).mSystems, 2021,6:e00917-21. (^#Co-first author).

5. Lu J.^#,Zhang Xinxu^#, Wang C., Li M., Chen J., Xiong Jinbo^*. Responses of sediment resistome, virulence factors and potential pathogens to decades of antibiotics pollution in a shrimp aquafarm.Sci. Total Environ., 2021, 794:148760. (^#Co-first author).

6.张新旭,李猛^*.海洋沉积物中几类常见古菌类群的分布与代谢特征.微生物学报,2020,60:1907-21.

7.Zhang Xinxu^#, Zhang M.^#, Zheng H., Ye H., Zhang X., Li Shengkang^*. Source of hemolymph microbiota and their roles in the immune system of mud crab.Dev. Comp. Immunol., 2019, 102:103470. (^#Co-first author).

8.Zhang Xinxu^#, Xu W.^#, Liu Y.,CaiM., Luo Zhuhua^*, Li Meng^*. Metagenomics reveals microbial diversity and metabolic potentials of seawater and surface sediment from a hadal biosphere at the Yap Trench.Front. Microbiol., 2018, 9:2402. (^#Co-first author)

9.Zhang Xinxu, Sun Z., Zhang X., Zhang M., Li Shengkang^*. Hemolymph microbiomes of three aquatic invertebrates as revealed by a new cell extraction method.Appl. Environ. Microbiol., 2018, 84:e02824-17.

10.Wei X.^#, Wang L.^#, Sun W., Zhang M., Ma H., Zhang Y.,Zhang Xinxu^*, Li Shengkang^*. C-type lectin B (SpCTL-B) regulates the expression of antimicrobial peptides and promotes phagocytosis in mud crabScylla paramamosain.Dev. Comp. Immunol., 2018, 84:213-229. (^*Co-corresponding author).

11.Zhang Xinxu,Wu H., Li Z., Li Y., Wang S., Zhu D., Wen X., Li Shengkang^*.Effects of dietary supplementation ofUlva pertusaand non-starch polysaccharide enzymes on gut microbiota ofSiganus canaliculatus.J. Oceanol. Limnol., 2017, 36:438-49.

12.Zhang Xinxu, Feng X., Wang Fengping^*. Diversity and metabolic potentials of subsurface crustal microorganisms from the western flank of the Mid-Atlantic Ridge.Front. Microbiol., 2016, 7:363.

13.Zhang Xinxu, Fang J., Bach W., Edwards K., Orcutt B., Wang Fengping^*. Nitrogen stimulates the growth of subsurface basalt-associated microorganisms at the western flank of the Mid-Atlantic Ridge.Front. Microbiol., 2016, 7:633.

14. Natarajan V. P.^#,Zhang Xinxu^#, Morono Y., Inagaki F., Wang Fengping^*. A modified SDS-based DNA extraction method for high quality environmental DNA from seafloor environments.Front. Microbiol., 2016, 7:986. (^#Co-first author).

15. Cai M.^#, Duan C.^#,Zhang Xinxu, Pan J., Liu Y., Zhang C., Li Meng^*. Genomic and transcriptomic dissection of Theionarchaea in marine ecosystem.Sci. China Life Sci., 2022, 65:1222-34.

16. Liu Y.^#, Makarova K.^#, Huang W.^#, Wolf Y., Nikolskaya A.,Zhang Xinxu, Cai M., Zhang C., Xu W., Luo Z., Cheng Lei^*, Koonin Eugene^*, Li Meng^*. Expanded diversity of Asgard archaea and their relationships with eukaryotes.Nature, 2021, 593:553-57.

17. Huang W.^#, Liu Y.^#,Zhang Xinxu, Zhang C., Zou D., Zheng S., Xu W., Luo Z., Liu F., Li Meng^*. Comparative genomic analysis reveals metabolic flexibility of Woesearchaeota.Nat. Commun., 2021, 12:5281.

18. Qin Wei^#,*, Zheng Y.^#, Zhao Feng^*, Wang Y., Urakawa, H., Martens-Habbena, W., Liu H., Huang X.,Zhang Xinxu, Nakagawa T., Mende D., Bollmann A., Wang B., Zhang Y., Amin S., Nielsen J., Mori K., Takahashi R., Virginia Armbrust E.W., Winkler Mari-K.H., DeLong E., Li M., Lee P., Zhou J., Zhang C., Zhang T., Stahl, D., IngallsAnitra^*. Alternative strategies of nutrient acquisition and energy conservation map to the biogeography of marine ammonia-oxidizing archaea.ISME J., 2020, 14:2595-2609.

19. Liu H., Zhang C.,Zhang Xinxu, Tan K., Zhang H., Cheng D.,Ye T., Li S., Ma H., Zheng Huaiping^*. A novel carotenoids-producing marine bacterium from noble scallopChlamys nobilisand antioxidant activities of its carotenoid compositions.Food Chem., 2020, 320:126629.

20. Cheng D., Zhang H., Liu H.,Zhang Xinxu, Tan K., Li S., Ma H., Zheng Huaiping^*. Identification and molecular characterization of peroxiredoxin 6 from noble scallopChlamys nobilisrevealing its potent immune response and antioxidant property.Fish Shellfish Immunol., 2020, 100:368-377.

21. Liu H., Tan K.,Zhang Xinxu, Zhang H., Cheng D., Ye T., Li S., Ma H., Zheng Huaiping^*. Comparison of gut microbiota between golden and brown noble scallopChlamys nobilisand its association with carotenoids.Front. Microbiol., 2020, 11:36.

22. Gao Y., Du X., Xu W., Fan R.,Zhang Xinxu, Yang S., Chen X., Lv J., Luo Zhuhua^*. Fungal diversity in deep sea sediments from east Yap Trench and their denitrification potential.Geomicrobiol. J., 2020, 37:848-58.

23. Wang Y.,Zhang Xinxu, Wang J., Xiao X., Wang Fengping^*. Genomic analysis ofMarinobactersp. NP-4 and NP-6 isolated from the deep-sea oceanic crust on the western flank of the Mid-Atlantic Ridge.Mar. Genom., 2020, 50:100693.

24. Li Z.,Zhang Xinxu, Aweya J., Wang S., Hu Z., Li Shengkang^*, Wen X. Formulated diet alters gut microbiota compositions in marine fishNibea coiborandNibea diacanthus.Aquac. Res.,2019, 50:126-138.

25.Reese Brandi^*, Zinke L., Sobol M., LaRowe D., Orcutt B.,Zhang Xinxu, Jaekel U., Wang F., Dittmar T., Defforey D., Tully B., Paytan A., Sylvan J., Amend J., Edwards K., Girguis P. Nitrogen cycling of active bacteria within oligotrophic sediment of the Mid-Atlantic Ridge flank.Geomicrobiol. J., 2018, 35:468-83.

26. Sun W.,Zhang Xinxu, Wan W., Wang S., Wen X., Zheng H., Zhang Y., Li Shengkang^*. Tumor necrosis factor receptor-associated factor 6 (TRAF6) participates in anti-lipopolysaccharide factors (ALFs) gene expression in mud crab.Dev. Comp. Immunol., 2017, 67:361-376.

27. Wang Fengping^*,#, Zhang Y.^#, Chen Y., He Y., Qi J., Hinrichs K.,Zhang Xinxu, Xiao Xiang^*, Boon N. Methanotrophic archaea possessing diverging methane-oxidizing and electron-transporting pathways.ISME J., 2014, 8:1069-78.

28.王风平,周悦恒,张新旭,肖湘.深海微生物多样性.生物多样性, 2013, 21:445-455.

二、论著之外的代表性研究成果和学术奖励：

已授权中国发明专利1项，已申请中国发明专利4项：

1.李升康，张新旭，张明，张旭昇，孙再桥.一种准确计数无脊椎动物血淋巴中微生物的丰度的方法.中国发明专利，2021，已授权.

2.徐炜,左啸天,张新旭,高渊皓,骆祝华.一种反硝化真菌及其应用.中国发明专利, 2021,实质审查中.

3.徐炜,左啸天,张新旭,高渊皓,骆祝华.一株高效去除铵盐的海洋红酵母菌株WCBC及其应用.中国发明专利, 2022,实质审查中.

4.骆祝华,王志超,张新旭,凌铭煌,杨隆河,罗雨,徐炜.一株出芽短梗霉及其在生产胞外多糖中的应用.中国发明专利, 2022,实质审查中.

5.骆祝华,胡杰鸽,张新旭,王志超,凌铭煌,高渊皓,陈逍遥,徐炜.可降解聚氨酯类酵母真菌菌株及鉴定方法与用途.中国发明专利, 2022,实质审查中.