张伟鹏

发布者:杨光发布时间:2022-09-08浏览次数:299

张伟鹏

教授、博士生导师

zhangweipeng@ouc.edu.cn


学习工作经历:

2019/01-, 中国海洋大学,教授

2016/02-2019/01,香港科技大学,博士后

2012/02-2016/01,香港科技大学,博士

2008/09-2011/06,中国科学院,硕士

2004/09-2008/06,山东大学,本科


讲授课程:

1)《微生物学》, 海德学院,本科生

2)《生物信息学》,海洋生命学院,本科生


研究兴趣:

海洋生物被膜(Marine Biofilms)生态学研究:

1生物被膜群落组装与发育机制;

2生物被膜细菌代谢特点;

3生物被膜菌种与基因资源挖掘


研究生招生/培养:

招收具有化学、药学、分子微生物学、或计算机科学相关背景和技术的博士生和硕士生,每位同学负责1-2个独立课题。欢迎热爱科研、责任心强的同学报考。


主持项目:

12022-2026,山东省国家级领军人才配套支持项目,100


22021-2023国家海外引才计划青年项目200


 (32020-2022中国海洋大学优青培育计划项目,50

42019-2021国家重点研发计划(子课题负责人),60


 (52019-2020中国海洋大学启动经费,80


学术兼职:

1)山东海洋微生物专委会委员

2The Innovation青年编委

3iMeta青年编委


授权专利:

1)何巍涛;张伟鹏;陈家旺;方玉平;王玉红;王豪;黄越。一种海底防污染型微生物膜原位培养装置。2020。中国。

2Qian PY, Li YX, Zhong Z, Zhang W. Discovery of cationic nonribosomal peptides as Gram-negative antibiotics through global genome mining. 2020. USA.


代表论文(第一/通讯,IF>=5:

(1) Wang M, Wang H, Wang P, Fu HH, Li CY, Qin QL, Liang Y, Wang M, Chen XL, Zhang YZ*, Zhang W*. TCA cycle enhancement and uptake of monomeric substrates support growth of marine Roseobacter at low temperature. Communications Biology. 2022, 5:1-11 (IF=6.548)

(2) Fan S#, Wang M#, Ding W, Li YX, Zhang YZ, Zhang W*. Scientific and technological progress in the microbial exploration of the hadal zone. Marine Life Science & Technology, 2022, 4:127-137 (IF=5.000)

(3) Wang H, Wang M, Fan S, Lu J, Lan Y, Li M, Li J, Liu R, Sun J, Fang J, Qian PY, Zhang YZ, Zhang W*. Culture enrichment combined with long-read sequencing facilitates genomic understanding of hadal sediment microbes. Frontiers in Marine Science, 2021, 1669 (IF=5.247)

(4) Ding W#, Wang R#, Liang Z, Zhang R, Qian PY*, Zhang W*. Expanding our understanding of marine viral diversity through metagenomic analyses of biofilms. Marine Life Science & Technology, 2021, 3:395-404 (IF=5.000)

(5 Wang R#, Ding W#, Long L, Lan Y, Tong H, Saha S, Wong YH, Sun J, Li Y, Zhang W*, Qian PY*. Exploring the influence of signal molecules on marine biofilms development. Frontiers in Microbiology, 2020, 11:571400 (IF=6.064)

(6) Cao S#, Zhang W#, Ding W, Wang M, Fan S, Yang B, Mcminn A, Wang M, Xie BB, Qin Q, Chen XL, He J*, Zhang YZ*. Structure and function of the Arctic and Antarctic marine microbiota as revealed by metagenomics. Microbiome, 2020, 8:1-12 (IF=16.837)

(7) Zhang L#, Zhang W#, Li, Q, Cui R, Wang Z, Wang Y, Zhang YZ, Ding W*, Shen X*. Deciphering the root endosphere microbiome of the desert plant Alhagi sparsifolia for drought resistance-promoting bacteria. Applied and Environmental Microbiology, 2020, 86:02863-19 (IF=5.005)

(8) Zhang W, Ding W, Li YX, Tam C, Bougouffa S, Wang R, Pei B, Chiang H, Leung P, Lu Y, Sun J, Fu H, Bajic VB, Liu H, Webster NS, Qian PY*. Marine biofilms constitute a bank of hidden microbial diversity and functional potential. Nature Communications, 2019, 10:517 (IF=17.694, ESI high citation paper)

(9) Zhang W, Watanabe HK, Ding W, Lan Y, Tian RM, Sun J, Chen C, Cai L, Li Y, Oguri K, Toyofuku T, Kitazato H, Drazen JC, Bartlett D, Qian PY*. Gut microbial divergence between two populations of the hadal amphipod Hirondellea gigas. Applied and Environmental Microbiology, 2019, 85:02032-18 (IF=5.005)

(10) Zhang W, Tian R, Sun J, Bougouffa S, Ding W, Cai L, Lan Y, Tong H, Li Y, Jamieson A, Bajic VB, Drazen J, Bartlett D, Qian PY*. Genome reduction in Psychromonas species within the gut of an amphipod from the ocean's deepest point. mSystems, 2018, 3:00009-18 (IF=7.324)

(11) Chen L#, Zhang W#, Hua J, Hu C, Qian PY, Lam P, Zhou B*, Lam JCW*. Dysregulation of intestinal health by environmental pollutants: involvement of estrogen receptor and aryl hydrocarbon receptor. Environmental Science & Technology, 2018, 52:42323-2330 (IF=11.558)

(12) Lin J#, Zhang W#, Cheng J, Yang X, Zhu K, Wang Y, Wei G, Qian PY, Luo ZQ, Shen XH*. A Pseudomonas T6SS effector recruits PQS-containing outer membrane vesicles for iron acquisition. Nature Communications, 2017, 8:14888(IF=17.694, ESI high citation paper)

(13) Tian R#, Zhang W#, Ding W, Cai L, Wong YH, Qian PY*. Genome reduction and microbe-host interaction drive adaptation of a sulfur-oxidizing bacterium associated with cold seep sponge.mSystems, 2017, 2:e00184-16 (IF=7.324)

(14) Zhang W, Sun J, Cao H, Tian R, Cai L, Ding W, Qian PY*. Post-translational modifications are enriched within protein functional groups important to bacterial adaptation within a deep-sea hydrothermal vent environment. Microbiome, 2016, 4:49 (IF=16.837)

(15) Zhang W#, Lu L#, Lai Q, Zhu B, Li Z, Xu Y, Shao Z, Herrup K, Moore BS, Ross AC*, Qian PY*. Family-wide structural characterization and genomic comparisons decode the diversity-oriented biosynthesis of Thalassospiramides by marine Proteobacteria. Journal of Biological Chemistry, 2016, 291:27228-38 (IF=5.486)

(16) Zhang W, Tian R, Yang B, Cao H, Cai L, Chen L, Zhou G, Sun J, Zhang X, Al-Suwailem A, Qian PY*. Environmental switching during biofilm development in a cold seep system and functional determinants of species sorting. Molecular Ecology, 2016,25:1958-71 (IF=6.622)

(17) Zhang W#, Ding W#, Yang B, Tian R, Gu S, Luo H, Qian PY*. Genomic and transcriptomic evidence for carbohydrate consumption among microbes in a cold seep brine pool. Frontiers in Microbiology, 2016, 7:1825(IF=6.064)

(18) Zhang W, Wang Y, Bougouffa S, Tian R, Cao H, Li Y, Cai L, Wong YH, Zhang G, Zhou G, Zhang X, Bajic VB, Al-Suwailem A, Qian PY*. Synchronized dynamics of bacterial niche-specific functions during biofilm development in a cold seep brine pool. Environmental Microbiology, 2015, 17:4089-104 (IF=5.476)

(19) Zhang W#, Sun J#, Ding W, Tian R, Lu L, Liu X, Shen X, Qian PY*. Extracellular matrix-associated proteins form an integral and dynamic system during Pseudomonas aeruginosa biofilm development. Frontiers in Cellular and Infection Microbiology, 2015,5:40 (IF=6.073)

(20) Zhang W, Wang Y, Song Y, Wang T, Xu S, Peng Z, Lin X, Zhang L, Shen X*. A type VI secretion system regulated by OmpR in Yersinia pseudotuberculosis functions to maintain intracellular pH homeostasis. Environmental Microbiology, 2013,15:557-569 (IF=5.476)



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