简历

王晓雪，现任中国科学院南海海洋研究所研究员，博士生导师。主要从事海洋微生物的生理代谢与环境适应机制研究。1996年9月考入中国海洋大学, 2000年6月获学士学位, 2002年5月留学美国Texas A&M University，就读遗传学专业，硕博连读，于2006年12月获博士学位。2007年1月至2011年11月，先后在美国Rutgers University和Texas A&M University做博士后研究。2011年12月起在中国科学院南海海洋研究所组建“海洋微生物被膜”课题组，担任责任研究员。先后主持国家自然科学基金重点项目、面上项目、国家杰出青年项目和重点研发项目等。2012年鉴定并命名了首个具有新颖作用机制的V型毒素-抗毒素系统GhoST，在国际范围内得到广泛认可；发现细菌基因组携带的毒素-抗毒素系统能够增强细菌的顽固耐药性，并揭示了毒素和抗毒素的作用机制以及该系统在应答环境胁迫时的调控通路。以通讯作者或第一作者身份在Nature Chemical Biology（2篇）、Nature Communications、PNAS、The ISME Journal（３篇）、Nucleic Acids Research（３篇）发表论文多篇，累计发表SCI收录论文４０余篇。

社会任职

目前担任《中国科学：地球科学》编委、Frontiers in Marine Science编委、中国海洋湖沼学会微生物海洋学分会常务理事、广东省遗传学会青年委员会副主任委员和广东省遗传学会第十届理事会理事。

研究领域

　　海洋微生物被膜课题组主要以海洋细菌以及细菌生物被膜研究的模式菌株为研究对象，关注细菌的生理与代谢及其环境适应机制。目前开展的工作包括：

1.毒素-抗毒素系统的功能鉴定和类别判定；

2.毒素-抗毒素系统与可移动遗传元件的水平和垂直转移；

3.毒素-抗毒素系统与抗药和耐药基因的水平转移。

代表论著

1.Ni SW, Li BY, Tang KH, Yao JY, Wood TK, Wang Y*,Wang X*. (2021). Conjugative plasmid-encoded toxin-antitoxin system PrpT/PrpA directly controls plasmid copy number.Proc. Natl. Acad. Sci. USA.118 (4) e2011577118.

2.Liu X, Lin S, Liu T, Zhou Y, Wang W, Yao J, Guo Y, Tang K, Chen R, Benedik MJ,Wang X*.(2021). Xenogeneic silencing relies on temperature dependent phosphorylation of the host H-NS protein inShewanella.Nucleic Acids Research.49(6):3427-3440.

3.Wang X*, Yao JY, Sun YC, Wood TK*. (2021). Type VII Toxin/Antitoxin Classification System for Antitoxins that Enzymatically Neutralize Toxins.Trends in Microbiology. Online

4.Yao JY, Zhen XK, Tang KH, Liu LT, Xu XL, Chen Z, Guo YX., Liu XX., Wood TK, Ouyang SY*,Wang X*. (2020). Novel Polyadenylylation-Dependent Neutralization Mechanism of the HEPN/MNT Toxin/Antitoxin System.Nucleic Acids Research48(19):11054–11067.

5.Zhou Y., Tang KH*, Wang PX, Wang WQ, Wang Y,Wang X*. (2020)Identification of bacteria-derived urease in the coral gastric cavity.SCIENCE CHINA Earth Sciences.63(10): 1553-1563.

6.Li YM, Liu XX, Tang KH, Wang W, Guo YX*,Wang X*. (2020). Prophage encoding toxin/antitoxin system PfiT/PfiA inhibits Pf4 production inPseudomonas aeruginosa.Microbial Biotechnology.2020 13(4):1132-1144.

7.Liu X, Tang KH, Zhang DL, Li YM, Liu Z, Yao J, Wood TK,Wang X*.(2019)Symbiosis of a P2-Family Phage and Deep-SeaShewanella putrefaciens.Environmental Microbiology21(11):4212-4232

8.Guo ZW, Wang WQ, Guo N, Zeng ZS, Liu T*,Wang X*.(2019). Molybdenum-mediated chemotaxis ofPseudoalteromonas lipolyticaenhances biofilm-Induced mineralization on low alloy steel surface.Corrosion Science. 159: 108123.

9.PX Wang, D He, BY Li, YX Guo, WQ Wang, XJ Luo, XY Zhao,Wang X*.(2019)Eliminatingmcr-1-harbouring plasmids in clinical isolates using the CRISPR/Cas9 system.Journal ofAntimicrobial Chemotherapy74(9),2559–2565.

10.Guo YX, Sun CL, Li YM, Tang KH, Ni SW,Wang X*.Antitoxin HigA inhibits virulence genemvfRexpression inPseudomonas aeruginosa.Environmental Microbiology21(8):2707-2723.

11.Song S, Guo YX, Kim JB,Wang X*, Wood TK*.(2019)Phage Mediate Bacterial Self-Recognition.Cell Reports.27(3),737-749.-7495

12.Zhan WE, Yao JY, Tang KH, Li YM, Guo YX*,Wang X*. (2019).Characterization of Two Toxin-Antitoxin Systems in Deep-Sea Streptomyces sp. SCSIO 02999.Marine Drugs,17(4), 211.

13.Tang KH, Wang Y,Wang X*(2019). Recent progress onsignallingmolecules of coral-associated microorganisms.SCIENCE CHINA Earth Sciences62 (4), 609–618.

14.Li Y, Liu X, Tang KH, Wang PX, Zeng ZS, Guo YX,Wang X*(2019).Excisionase in Pf Filamentous Prophage Controls Lytic-lysogeny Decision-making inPseudomonas aeruginosa.Molecular Microbiology.111(2), 495–513.

15.Liu T,Guo ZW,Zeng ZS, Guo N, LeiYH,Liu T, Sun SB,Chang XT, YinYS*,WangX*(2018).Marine Bacteria Provide Lasting Anti-Corrosion Activity for Steel via Biofilm-induced Mineralization.ACS Applied Materials & Interfaces.10 (46), 40317–40327.

16.Yao J, Guo Y, Wang P, Zeng Z, Li B, Tang K, Liu X,Wang X*(2018). Type II toxin/antitoxin systemParE_SO/CopA_SOstabilizes prophage CP4So inShewanella oneidensis.Environmental Microbiology. 20, 1224-1239.

17.Wang P,Zeng Z, Wang W, Wen Z, Li J,Wang X*(2017). Dissemination and loss of a biofilm-related genomic island in marinePseudoalteromonasmediated by integrative and conjugative elements.Environmental Microbiology.19(11), 4620-4637.

18.Guo Y, Liu X, Li B, Yao J, Wood TK,Wang X*(2017). Tail-anchored inner membrane proteinElaBincreases resistance to stress while reducing persistence inEscherichia coli.Journal of Bacteriology.199:e00057-17.

19.Zeng Z, Liu X, Yao J, Guo Y, Li B, Li Y, Jiao N,Wang X*(2016). Cold adaptation regulated by cryptic prophage excision inShewanella oneidensis.The ISME Journal10(12):2787-2800.

20.Wang X*, Wood TK* (2016). Cryptic prophages as targets For drug development.Drug Resistance Updates.27:30-8.doi:10.1016/j.drup.2016.06.001

21.Wang PX, Yu ZC, Li BY, Cai XS, Zeng ZZ, Chen X,Wang X*(2015). Development of an efficient conjugation-based genetic manipulation system forPseudoalteromonas.Microbial Cell Factories. 2015, 14:11

22.Guo Y, Quiroga C, Chen Q, McAnulty MJ,BenedikMJ, Wood TK*,Wang X*(2014).RalR(a DNase) andRalA(a small RNA) form a type I toxin–antitoxin system inEscherichia coli.Nucleic Acids Research. 42 (10): 6448-6462.

23.Wang X*, Lord DM, Hong SH,PetiW,BenedikMJ, Page R, Wood TK* (2013). Type II toxin/antitoxinMqsR/MqsAcontrols type V toxin/antitoxinGhoT/GhoS.Environmental Microbiology.15(6):1734-44

24.Wang X#, Lord DM#, Cheng HY#, Osbourne DO, Hong SH, Sanchez-Torres V, Quiroga C, Zheng K, Herrmann T,PetiW,BenedikMJ, Page R*, Wood TK*(2012). A new type V toxin-antitoxin system where mRNA for toxinGhoTis cleaved by antitoxinGhoS.Nature Chemical Biology. 8(10):855-61. (# co-first authors).

25.Wang X, Kim Y, Hong SH, Ma Q, Brown BL, Pu M,TaroneAM,BenedikMJ,PetiW, Page R, Wood TK*(2011). AntitoxinMqsAhelps mediate the bacterial general stress response.Nature Chemical Biology7, 359-366.

26.Wang X, Wood TK*(2011). Toxin/antitoxin systems influence biofilm andpersistercell formation and the general stress response.Applied & Environmental Microbiology77, 5577-5583.

27.Wang X, Wood TK*(2011). IS5inserts upstream offlhDCin a quasi-Lamarckian way.The ISME Journal5, 1517–1525.

28.Wang X, Kim Y, Ma Q, Hong S-H,PokusaevaK,SturnioJM, Wood TK*(2010) Cryptic prophages help bacteria cope with adverse environments.Nature Communications1, 147.

29.Wang X, Kim Y, Wood TK*(2009). Control and benefits of CP4-57 prophage excision inEscherichia colibiofilms.The ISME Journal3, 1164-1179.

承担科研项目情况

1.国家自然科学基金面上项目，大肠杆菌原噬菌体e14、rac和CPS-53中毒素-抗毒素系统的功能性研究。

2.国家自然科学基金重大项目课题三，深海细菌的特殊应激反应和次级代谢及其深海环境适应机制。

3.国家重大科研计划课题一，MCP的惰性溶解有机碳生产过程与分子生物学机制。