郑文韬
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Gender:Male
Education Level:Postgraduate (Postdoctoral)
Alma Mater:山东大学
Paper Publications
- [1] . Precise genome engineering in Pseudomonas using phage-encoded homologous recombination and the Cascade–Cas3 system. NATURE PROTOCOLS, 18, 2642-2670, 2023.
- [2] . Precise genome engineering in Pseudomonas using phage-encoded homologous recombination and Cascade-Cas3 system. NATURE PROTOCOLS, 18, 2642, 2023.
- [3] 王雪. Recombineering-Mediated Genome Editing in Burkholderiales Strains.. MethodsinmolecularbiologyCliftonNJ, 2479, 21-36, 2022.
- [4] Yin, Jia. Single-Stranded DNA-Binding Protein and Exogenous RecBCD Inhibitors Enhance Phage-Derived Homologous Recombination in Pseudomonas. eScience, 14, 1-+, 2019.
- [5] 郑文韬. Cascade-Cas3 facilitates high-accuracy genome engineering in Pseudomonas using phage-encoded homologous recombination. Engineering Microbiology, 2, 2022.
- [6] 郑文韬. Establishment of recombineering genome editing system in Paraburkholderia megapolitana empowers activation of silent biosynthetic gene clusters. MICROBIAL BIOTECHNOLOGY, 2020.
- [7] 郑文韬. Recombineering facilitates the discovery of natural product biosynthetic pathways in Pseudomonas parafulva. Biotechnology Journal, 16, 2021.
- [8] 王雪. Improved dsDNA recombineering enables versatile multiplex genome engineering of kilobase-scale sequences in diverse bacteria. Nucleic Acids Research, 2022.
- [9] 李瑞娟. Development and application of an efficient recombineering system for Burkholderia glumae and Burkholderia plantarii. MICROBIAL BIOTECHNOLOGY, 14, 1809, 2021.
- [10] 刘嘉琪. Rational construction of genome-reduced Burkholderiales chassis facilitates efficient heterologous production of natural products from proteobacteria. Nature Communications, 12, 2021.
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