代表性论文
1.Luan, J.#; Song, C.; Liu, Y.; He, R.; Guo, R.; Cui, Q.; Jiang, C.; Li, X.; Hao, K.; Stewart, A. F.; Fu, J.; Zhang, Y. &Wang, H.*(独立通讯作者),Seamless site-directed mutagenesis in complex cloned DNA sequences using the RedEx method,Nature Protocols,2024,已在线发表.(IF=17.4,生化研究方法一区)
2.Yu, G.#; Duan, Q.; Cui, T.; Jiang, C.; Li, X.; Li, Y.; Fu, J.; Zhang, Y.;Wang, H. *(并列通讯作者)& Luan, J.*, Development of a bacterial gene transcription activating strategy based on transcriptional activator positive feedback,Journal of Advanced Research, 2023, Dec 18:S2090-1232(23)00400-9.(IF=11.0,综合性期刊一区)
3.Li, X.#; Guo, R.; Luan, J.; Fu, J.; Zhang, Y. &Wang, H.*(独立通讯作者), Improving spinosad production by tuning expressions of the forosamine methyltransferase and the forosaminyl transferase to reduce undesired less active byproducts in the heterologous hostStreptomyces albusJ1074,Microbial Cell Factories, 2023, 22(1), 15.(IF=5.5,生物工程与应用微生物一区)
4.Jiang, C.#; She, Q. &Wang, H.*(独立通讯作者), Editorial: Insights in genome editing tools and mechanisms: 2022.Frontiers in Genome Editing, 2023, 5, 1240576.(IF=4.6)
5.李雨桐#,崔天琦,张海林,于广乐,栾霁*,王海龙*(主通讯作者),肿瘤靶向细菌Escherichia coliNissle 1917在癌症治疗中的研究进展,中国生物工程杂志,2023, 43(6): 54-68.
6.姜婵娟#,崔天琦,孙洪娈,焦念志,符军,张友明*,王海龙*(主通讯作者),ExoCET-BAC策略高效抓取和组装高AT含量基因组大片段,合成生物学,2022, 3(1): 238-251.获得“《合成生物学》期刊2024年度优秀论文”
7.Jiang, T.#,*; Yang, X.#; Li, G.; Zhao, X.; Sun, T.; Muller, R.;Wang, H. *(并列通讯作者); Li, M.* & Zhang, Y.*, Bacteria-Based Live Vehicle for In Vivo Bioluminescence Imaging,Analytical Chemistry, 2021, 93(47), 15687-15695.(IF=6.5,化学一区)
8.Tang, Y.#; Zhang, C.; Cui, T.; Lei, P.; Guo, Z. *;Wang, H. *(并列通讯作者)& Liu, Q. *, The Discovery of Actinospene, a New Polyene Macrolide with Broad Activity against Plant Fungal Pathogens and Pathogenic Yeasts,Molecules, 2021, 26(22).(IF=4.6,化学二区)
9.Song, C.#; Luan, J.#; Li, R.; Jiang, C.; Hou, Y.; Cui, Q.; Cui, T.; Tan, L.; Ma, Z.; Tang, Y. J.; Stewart, A. F.; Fu, J.; Zhang, Y. &Wang, H.*(独立通讯作者), RedEx: a method for seamless DNA insertion and deletion in large multimodular polyketide synthase gene clusters,Nucleic Acids Research, 2020, 48(22), e130.(IF=16.1,生化与分子生物学一区)
10.Jiang, C.#; Zhou, H.; Sun, H.; He, R.; Song, C.; Cui, T.; Luan, J.; Fu, J.; Zhang, Y.; Jiao, N.;Wang, H.*(独立通讯作者),Establishing an efficient salinomycin biosynthetic pathway in three heterologousStreptomyceshosts by constructing a 106-kb multioperon artificial gene cluster,Biotechnology & Bioengineering, 2021, 118: 4668-4677. (IF=4.0,生物工程与应用微生物二区)
11.Abbasi, M. N.#; Fu, J.; Bian, X.;Wang, H.*(并列通讯作者); Zhang, Y.* & Li, A.*, Recombineering for Genetic Engineering of Natural Product Biosynthetic Pathways,Trends in Biotechnology, 2020, 38(7), 715-728.(IF=16.8,生物工程与应用微生物一区)
12.Song, C.#; Luan, J.#; Cui, Q.; Duan, Q.; Li, Z.; Gao, Y.; Li, R.; Li, A.; Shen, Y.; Li, Y.; Stewart, A. F.; Zhang, Y.*; Fu, J.* &Wang, H.*(主通讯作者), Enhanced heterologous spinosad production from a 79-kb synthetic multi-operon assembly,ACS Synthetic Biology, 2019, 8(1), 137-147.(IF=4.2,生化研究方法二区)
13.Wang, H.#(第一作者); Li, Z.; Jia, R.; Yin, J.; Li, A.; Xia, L.; Yin, Y.; Muller, R.; Fu, J.*; Stewart, A. F.* & Zhang, Y.*, ExoCET: exonuclease in vitro assembly combined with RecET recombination for highly efficient direct DNA cloning from complex genomes,Nucleic Acids Research, 2018, 46(5), e28.(IF=16.1,生化与分子生物学一区)
14.Wang, H.#(并列第一作者); Li, Z.#; Jia, R.; Hou, Y.; Yin, J.; Bian, X.; Li, A.; Muller, R.; Stewart, A. F.*; Fu, J.* & Zhang, Y.*, RecET direct cloning and Redab recombineering of biosynthetic gene clusters, large operons or single genes for heterologous expression,Nature Protocols, 2016, 11(7), 1175-1190.(IF=17.4,生化研究方法一区)
15.Wang, H.#(第一作者); Bian, X.; Xia, L.; Ding, X.; Müller, R.; Zhang, Y.*; Fu, J.* & Stewart, A. F.*, Improved seamless mutagenesis by recombineering usingccdBfor counterselection,Nucleic Acids Research, 2014, 42(5), e37.(IF=16.1,生化与分子生物学一区)
16.Jing, X.#; Cui, Q.#; Li, X.; Yin, J.; Ravichandran, V.; Pan, D.; Fu, J.; Tu, Q.;Wang, H.*(并列通讯作者); Bian, X.* & Zhang, Y.*, EngineeringPseudomonas protegensPf-5 to improve its antifungal activity and nitrogen fixation,Microbial Biotechnology, 2020, 13(1), 118-133.(IF=5.8,生物工程与应用微生物二区)
17.Luan, J.#; Li, Z.#;Wang, H.*(独立通讯作者); Fu, J. & Zhang, Y.,In vitroassay revealed mismatches between guide RNA and target DNA can enhance Cas9 nuclease activity,Current Chinese Science, 2020, 1(1), 69-72.
18.Zhang, Y.#; Liu, R.#; Tian, K.#; Wang, Z.#; Yang, X.; Gao, D.; Zhang, Y.; Fu, J.*;Wang, H.*(并列通讯作者)& Zhao, J.*, Fiber2 and hexon genes are closely associated with the virulence of the emerging and highly pathogenic fowl adenovirus 4,Emerging Microbes & Infections, 2018, 7(1), 199.(IF=8.3,微生物学二区)
19.Wang, H.#(第一作者); Yao, T.; Cai, M.; Xiao, X.; Ding, X. & Xia, L.*, A genome walking strategy for the identification of nucleotide sequences adjacent to known regions,Biotechnology Letters, 2013, 35(2), 279-284.
20.Yu, G.#; Li, X.; Duan, Q.; Fu, J.; Zhang, Y.;Wang, H.& Luan J.*, Systematic identification of endogenous strong constitutive promoters from the diazotrophic rhizosphere bacteriumPseudomonas stutzeriDSM4166 to improve its nitrogenase activity.Microbial Cell Factories, 2023, 22(1): 91.
21.Rostovskaya, M.#, Fu, J., Obst, M., Baer, I., Weidlich, S.,Wang, H., Smith, A. J. H., Anastassiadis, K.* & Stewart, A. F.*, Transposon-mediated BAC transgenesis in human ES cells,Nucleic Acids Research, 2012, 40(19), e150.
22.Zhang, W.#, Fu, J.#, Liu, J.,Wang, H., Schiwon, M., Janz, S., Schaffarczyk, L., von der Goltz, L., Ehrke-Schulz, E., Domer, J., Solanki, M., Boehme, P., Bergmann, T., Lieber, A., Lauber, C., Dahl, A., Petzold, A., Zhang, Y.*, Stewart, A. F.* & Ehrhardt, A.*, An engineered virus library as a resource for the spectrum-wide exploration of virus and vector diversity,Cell Reports, 2017, 19(8), 1698-1709.
23.Zhang, W.#, Fu, J., Liu, J.,Wang, H., Schulz, E., Solanki, M., Boehme, P., Gebbing, M., Bergmann, T., Doerner, J., Stewart, A. F. & Ehrhardt, A.*, High-throughput cloning and tagging of an engineered adenovirus-library empowers vector diversity for broad applications,Molecular Therapy, 2015, 23, S21.
24.Bian, X.#, Tang, B.#, Yu, Y., Tu, Q., Gross, F.,Wang, H., Li, A., Fu, J., Shen, Y., Li, Y., Stewart, A. F., Zhao, G., Ding, X.*, Muller, R.* & Zhang, Y.*, Heterologous production and yield improvement of epothilones inBurkholderialesstrain DSM 7029,ACS Chemical Biology, 2017, 12(7), 1805-1812.
25.Yin, J.#,Wang, H., Li, R., Ravichandran, V., Bian, X., Li, A., Tu, Q., Stewart, A.F., Fu, J.* & Zhang, Y.*, A practical guide to recombineering inPhotorhabdusandXenorhabdus,Current Topics in Microbiology and Immunology, 2017.
26.Ravichandran, V.#, Zhong, L.,Wang, H., Yu, G., Zhang, Y.* & Li, A.*, Virtual screening and biomolecular interactions of CviR-based quorum sensing inhibitors against chromobacterium violaceum,Frontiers in Cellular and Infection Microbiology, 2018, 8, 292.
27.Liu, Q.#, Shen, Q.#, Bian, X., Chen, H., Fu, J.,Wang, H., Lei, P., Guo, Z., Chen, W.*, Li, D.* & Zhang, Y.*, Simple and rapid direct cloning and heterologous expression of natural product biosynthetic gene cluster inBacillus subtilisvia Red/ET recombineering,Scientific Reports, 2016, 6, 34623.
28.Jiang, B.#, Zhang, R., Feng, D., Wang, F., Liu, K., Jiang, Y., Niu, K., Yuan, Q., Wang, M.,Wang, H., Zhang, Y. & Fang, X.*, A Tet-on and Cre-loxP based genetic engineering system for convenient recycling of selection markers inPenicillium oxalicum,Frontiers in Microbiology, 2016, 7, 485.
29.Zhu, L.#, Yue, X., Han, K., Li, Z., Zheng, L., Yi, X.,Wang, H., Zhang, Y. & Li, Y.*, Allopatric integrations selectively change host transcriptomes, leading to varied expression efficiencies of exotic genes inMyxococcus xanthus,Microbial Cell Factories, 2015, 14, 105.
30.Bian, X.#, Huang, F.,Wang, H., Klefisch, T., Muller, R.* & Zhang, Y.*, Heterologous production of glidobactins/luminmycins inEscherichia coliNissle containing the glidobactin biosynthetic gene cluster fromBurkholderiaDSM7029,Chembiochem, 2014, 15(15), 2221-2224.
31.Yu, F.#, Jing, X., Li, X.,Wang, H., Chen, H., Zhong, L., Yin, J., Pan, D., Yin, Y., Fu, J., Xia, L., Bian, X., Tu, Q. & Zhang, Y., Recombineering Pseudomonas protegens CHA0: An innovative approach that improves nitrogen fixation with impressive bactericidal potency,Microbiology Research, 2019, 218, 58-65.
32.Fu, J.#; Bian, X.#; Hu, S.;Wang, H.; Huang, F.; Seibert, P. M.; Plaza, A.; Xia, L.; Müller, R.*; Stewart, A. F.* & Zhang, Y.*, Full-length RecE enhances linear-linear homologous recombination and facilitates direct cloning for bioprospecting,Nature Biotechnology, 2012, 30(5), 440-446.