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个人信息
- 所在单位:生命科学学院
- 学历:博士研究生毕业
- 学位:理学博士学位
- 双肩挑所在单位: 生命科学学院
- 周希怡,张龙,苏晓静,杭萍,胡冰,蒋建东.Sphingomonas flavalba sp. nov., isolated from a procymidone-contaminated soil,INTERNATIONAL JOURNAL OF SYSTEMATIC AND EVOLUTIONARY MICROBIOLOGY,2019,69(9):2936-2941(通讯作者)
- 阮哲璞,孙群,张燕林,蒋建东.Oleisolibacter albus gen. nov., sp. nov., isolated from an oil-contaminated soil,INTERNATIONAL JOURNAL OF SYSTEMATIC AND EVOLUTIONARY MICROBIOLOGY,2019,69(8):2220-2225(通讯作者)
- 陈典,孔祥坤,吴姝棁,黄俊伟,成孝坤,蒋建东.An esterase AppH for the hydrolysis of 2-(4-aryloxyphenoxy) propionate herbicides in Sphingobium sp. strain C3,INTERNATIONAL BIODETERIORATION & BIODEGRADATION,2019,136:34-40(通讯作者)
- 黄俊伟,胡顺利,成孝坤,陈典,孔祥坤,蒋建东.Steroidobacter soli sp. nov., isolated from farmland soil,INTERNATIONAL JOURNAL OF SYSTEMATIC AND EVOLUTIONARY MICROBIOLOGY,2019,69(11):3443-3447(通讯作者)
- 李娜,童仁磊,姚利,陈青,闫新,丁德荣,邱吉国,何健,蒋建东.Roles of Two Glutathione-Dependent 3,6-Dichlorogentisate Dehalogenases in Rhizorhabdus dicambivorans Ndbn-20 in the Catabolism of the Herbicide Dicamba,APPLIED AND ENVIRONMENTAL MICROBIOLOGY,2018,84(17):-(参与作者)
- 邱吉国,张艳婷,赵玲玲,贺芹,蒋建东,洪青,何健.Isolation and characterization of the cotinine-degrading bacterium Nocardioides sp Strain JQ2195,JOURNAL OF HAZARDOUS MATERIALS,2018,353(0):158-165(参与作者)
- 闫新,黄俊伟,徐希辉,陈典,谢香庭,陶青,何健,蒋建东.Enhanced and Complete Removal of Phenylurea Herbicides by Combinational Transgenic Plant-Microbe Remediation,APPLIED AND ENVIRONMENTAL MICROBIOLOGY,2018,84(14):-(通讯作者)
- 张龙,杭萍,胡强,陈小龙,周希怡,陈凯,蒋建东.Degradation of Phenylurea Herbicides by a Novel Bacterial Consortium Containing Synergistically Catabolic Species and Functionally Complementary Hydrolases,JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY,2018,66(47):12479-12489(通讯作者)
- 闫新,金文,吴广,姜万奎,杨战功,纪俊宾,邱吉国,何健,蒋建东,洪青.Hydrolase CehA and Monooxygenase CfdC Are Responsible for Carbofuran Degradation in Sphingomonas sp Strain CDS-1,APPLIED AND ENVIRONMENTAL MICROBIOLOGY,2018,84(16):-(参与作者)
- 陈凯,沐阳,简珊珊,臧小霞,陈青,贾伟彬,柯壮,高彦征,蒋建东.Comparative Transcriptome Analysis Reveals the Mechanism Underlying 3,5-Dibromo-4-Hydroxybenzoate Catabolism via a New Oxidative Decarboxylation Pathway,Applied and Environmental Microbiology,2018,84(6):-(通讯作者)
