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个人信息
- 所在单位:资源与环境科学学院
- 学历:博士研究生毕业
- 学位:农学博士学位
- 邵佳慧,缪有志,刘铠鸣,任轶,徐志辉,张楠,冯海超,沈其荣,张瑞福,荀卫兵.Rhizosphere microbiome assembly involves seed-borne bacteria in compensatory phosphate solubilization,SOIL BIOLOGY & BIOCHEMISTRY,2021,159:-(参与作者)
- Xun Weibing,Liu Yunpeng,Li Wei,Ren Yi,Xiong Wu,Xu Zhihui,Zhang Nan,Miao Youzhi,Shen Qirong,Zhang Ruifu.Specialized metabolic functions of keystone taxa sustain soil microbiome stability,MICROBIOME,2021,9(1):-(参与作者)
- Overcoming diverse homologous recombinations and single chimeric guide RNA competitive inhibition enhances Cas9-based cyclical multiple genes coediting in filamentous fungi,ENVIRONMENTAL MICROBIOLOGY,2021,23(6):2937-2954(第一作者)
- 冯海超,付蕊欣,后雪琴,吕雨,张楠,刘云鹏,徐志辉,缪有志,Tino krell,沈其荣,张瑞福.Chemotaxis of Beneficial Rhizobacteria to Root Exudates: The First Step towards Root-Microbe Rhizosphere Interactions,INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES,2021,22(13):-(参与作者)
- 邵佳慧,李宇聪,李遵锋,徐志辉,荀卫兵,张楠,冯海超,缪有志,沈其荣,张瑞福.Participating mechanism of a major contributing gene ysnE for auxin biosynthesis in Bacillus amyloliquefaciens SQR9,JOURNAL OF BASIC MICROBIOLOGY,2021,61(6):569-575(参与作者)
- 黎广祺,周璇,李志宏,刘云鹏,刘东阳,缪有志,万群,张瑞福.Significantly improving the thermostability of a hyperthermophilic GH10 family xylanase XynAF1 by semi-rational design,APPLIED MICROBIOLOGY AND BIOTECHNOLOGY,2021,105(11):4561-4576(参与作者)
- 缪有志,陈兴,李托,朱瀚,唐思宇,刘东阳,沈其荣.Proteomic analysis reflects an environmental alkalinization-coupled pH-dependent mechanism of regulating lignocellulases in Trichoderma guizhouense NJAU4742,BIOTECHNOLOGY FOR BIOFUELS,2020,13(1):-(第一作者)
- 黎广祺,陈小娟,周璇,黄蓉,李凌波,缪有志,刘东阳,张瑞福.Improvement of GH10 family xylanase thermostability by introducing of an extra alpha-helix at the C-terminal,BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS,2019,515(3):417-422(参与作者)
- 荀卫兵,李维,熊武,任轶,刘云鹏,缪有志,徐志辉,张楠,沈其荣,张瑞福.Diversity-triggered deterministic bacterial assembly constrains community functions,NATURE COMMUNICATIONS,2019,10:-(参与作者)
- 孟晓慧,缪有志,刘秋梅,马磊,郭凯,刘东阳,冉炜,沈其荣.TgSWO from Trichoderma guizhouense NJAU4742 promotes growth in cucumber plants by modifying the root morphology and the cell wall architecture,MICROBIAL CELL FACTORIES,2019,18(1):-(参与作者)
