工作经历( Professional Experience ) :

2020.04-至今 长江大学农学院,获聘为***

2019.05-至今 长江大学农学院,教授

2018.10-2019.01 西南林业大学,生态与水土保持学院,高层人***

2016.04-2018.04韩国浦项科技大学,生命科学学院,博士后

2012.06-2016.03日本国立冈山大学,资源植物科学研究所,博士后

2012.01-2012.05华中农业大学,作物遗传改良国家重点实验室棉花组,科研助理

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2020.04-“Chutian Scholars” Program, College of Agriculture, Yangtze University, China

2019.05- Professor, College of Agriculture, Yangtze University, China

2018.10-2019.01 Associate Professor, Institute of Environmental Remediation and Human Health, Southwest Forestry University, China

2016.04-2018.04 Departments of Life Sciences, Pohang University of Science and Technology, Korea

2012.01-2012.05 Postdoctoral Fellow, Institute of Plant Science and Resources, Okayama University, Japan

2012.01-2012.05 Research Assistant, Huazhong Agricultural University, China

教育经历( Education ) :

2005.09-2011.12 华中农业大学,作物生物技术专业,农学博士

2001.09-2005.06 华中农业大学,农学专业,农学学士

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2005.09-2011.12 Ph.D. (Crop Biotechnology) Huazhong Agricultural University, China

2001.09-2005.06 B.S. (Agronomy) Huazhong Agricultural University, China

邓锋林博士,2005年本科毕业于华中农业大学植物科学技术学院,2011年12月获得华中农业大学作物生物技术专业博士学位,导师为作物遗传改良国家重点实验室张献龙教授。博士后期间(2012年6月-2018年4月)分别在日本国立冈山大学资源植物科学研究所国际知名植物营养学家Jian Feng Ma(马建锋)教授和韩国浦项科技大学生命科学学院Youngsook Lee教授课题组从事水稻矿质元素(镉,砷,铜)在水稻籽粒中积累机制与改良相关研究。

邓锋林博士目前在SCI杂志上发表论文30余篇,其中以第一作者(含共一)或者通讯作者身份在 Trends in Plant Science (1区TOP, IF=18.3), Nature Communications (1区TOP, IF=14.9) , Plant Physiology (1区TOP, IF=8.3) , Plant Biotechnology Journal (1区TOP, IF=9.8), Journal of Hazardous Materials (1区TOP, IF=10.6), Critical Reviews in Environmental Science and Technology (1区TOP, IF=12.6) , Frontiers in Plant Science (2区, IF=5.8)等高水平杂志上发表论文多篇。截止到2022年3月,论文总引用近1400次,H-index为20 (Google Scholar);曾获得湖北省优秀博士学位论文奖;主持国家自然科学基金面上项目;以第二完成人参与了两项韩国科学研究基金,总经费约合270万元人民币;作为主要完成人申请中国及韩国专利4项。自2013年起担任 Plant Physiology (1区TOP, IF=8.3), New Phytologist (1区TOP, IF=10.2), Plant Cell & Environment (1区TOP, IF=7.2), Journal of Hazardous Materials (1区TOP, IF=10.6), Environment International (1区TOP, IF=9.6), Industrial Crops and Products (1区TOP, IF=5.6), Plant Science (2区, IF=4.7), Molecules and Cells (3区, IF=5.0), Plant Growth Regulation (3区, IF=3.4), PLoS One (3区, IF=3.2) 和 Journal of Plant Biology (4区, IF=2.4)等杂志审稿人。目前是 Frontiers in Genetics (2区, IF=4.6)和 Frontiers in Plant Science (2区, IF=5.8)杂志的客座编委,联合国际专家主持Natural Variations and Genetic Constraints on Plant Nutrition和Micronutrients Movement from Soil to the Grains: Role of Plant Membrane Transporters专栏。

科研成果:

一、第一或通讯作者 论文( Representative Publications ):

1. Deng F ^#, Zeng F ^#, Shen Q ^#, Abbas A, Cheng J, Jiang W, Chen G, Shah AN, Holford P, Tanveer M ^*, Zhang D ^*, Chen ZH ^*. (2022) Molecular evolution and functional modification of plant miRNAs with CRISPR. Trends in Plant Science. doi: 10.1016/j.tplants.2022.01.009. ( ^#Co-first authors) (植物科学类1区TOP期刊,影响因子18.3)

2. Deng F ^#, Zeng F ^#, Chen G, Feng X, Riaz A, Wu X, Gao W, Wu F, Holford P, Chen Z-H ^* (2021) Metalloid Hazards: from plant molecular evolution to mitigation strategies. Journal of Hazardous Materials, 409: 124495 ( ^#Co-first authors) (环境科学类1区TOP期刊,影响因子10.6)

3. Huang XY ^#, Deng F ^#, Yamaji N, Pinson SR, Fujii-Kashino M, Danku J, Douglas A, Guerinot ML, Salt DE, Ma JF. (2016) A heavy metal P-type ATPase OsHMA4 prevents copper accumulation in rice grain. Nature Communications, 7:12138. doi: 10.1038/ncomms12138 (#Co-first authors) (综合类1区TOP期刊,影响因子12.1)

4. Deng F, Yamaji N, Ma JF, Lee SK, Jeon JS, Martinoia E, Lee Y, Song WY (2018) Engineering rice with lower grain arsenic. Plant Biotechnology Journal, 16:1691-1699 (植物科学类1区TOP期刊,影响因子6.8)

5. Deng F,Yamaji N, Xia J, Ma JF (2013) A member of heavy metal P-type ATPase OsHMA5 is involved in xylem loading of copper in rice. Plant Physiology, 163: 1353–1362 (植物科学类1区TOP期刊,影响因子为6.9)

6. Deng F, Tu L, Tan J, Li Y, Nie Y and Zhang X (2012) GbPDF1 (Protodermal factor 1) is involved in cotton fiber initiation via the core cis-element HDZIP2ATATHB2. Plant Physiology, 158: 890–904 (植物科学类1区TOP期刊,影响因子6.9)

7. Chen X, Jiang W, Tong T, Chen G, Zeng F, Jang S, Gao W, Li Z, Deng F*, Chen Z-H* (2021) Molecular interaction and evolution of jasmonate signaling with transport and detoxification of heavy metals and metalloids in plants. Frontiers in Plant Science, 12: 665842 (* Co-corresponding authors) (植物科学类2区,影响因子5.75)

8. Hu B ^#, Deng F ^#*, Chen G, Chen X, Gao W, Long L, Xia J, Chen Z-H ^* (2020) Evolution of abscisic acid signaling for stress responses to toxic metals and metalloids. Frontiers in Plant Science, 2020. 11: p. 909. ( ^#Co-first and * Co-corresponding authors) (SCI植物科学类2区,影响因子4.4)

9. Deng F ^#, Liu X ^#, Chen Y, Rathinasabapathi B, Rensing C, Chen J, Bi J, Xiang P, Ma, LQ (2020) Aquaporins mediated arsenite transport in plants: Molecular mechanisms and applications in crop improvement. Critical Reviews in Environmental Science and Technology. 50: 1613-1639 (#Co-first authors) (SCI环境科学类1区TOP期刊,影响因子8.3)

10. Deng F, Yu M, Martinoia E, Song WY (2019) Ideal cereals with lower arsenic and cadmium by accurately enhancing vacuolar sequestration capacity. Frontiers in Genetics, 10: 322 (生物类2区,影响因子3.5)

二、专利( Patents )

1. Song WY, Lee Y, Deng F., Composition for reducing arsenic accumulation. 专利号:10-2017-0060054 (韩国)

2. 张献龙, 邓锋林,涂礼莉,朱龙付,谭家福:两个棉花纤维发育起始优势表达的强启动子及其应用。专利授权号:ZL201010582335.0

3. 张献龙,谭家福,涂礼莉,朱龙付, 邓锋林:利用棉花基因GbF3H改变花瓣颜色,专利授权号: ZL201010582448.0

4. 涂礼莉,李阳,张献龙,朱龙付, 邓锋林:两个棉花纤维伸长期优势表达的启动子及应用。专利授权号: ZL201010582387.8

三、获奖情况 (Awards)

2013.12 湖北省优秀博士学位论文

植物基因组学大会最佳海报

第九届“挑战杯”飞利浦全国大学生课外学术科技作品竞赛一等奖

湖北省第五届“挑战杯”弘博大学生课外学术科技作品竞赛一等奖

四、 部分非一作论文 (Some other Publications):

1. Lei G, Fujii-Kashino M, Wu DZ, Hisano H, Saisho D, Deng F, Yamaji N, Sato, K, Zhao F, Ma JF. (2020) Breeding for low cadmium barley by introgression of a Sukkula-like transposable element. Nature Food, 1: 489–499.

2. Tan J, Tu L, Deng F, Hu H, Nie Y, Zhang X. (2013) A genetic and metabolic analysis revealed that cotton fiber cell development was retarded by flavonoid naringenin. Plant Physiology, 162: 86–95

3. Min L, Zhu L, Tu L, Deng FThe Plant Journal, 75: 823–835

4. Tan J, Tu L, Deng F, Wu R, Zhang X. (2012) Exogenous jasmonic acid inhibited
cotton fiber elongation. Journal of Plant Growth Regulation, 31: 599–605
(IF5year=2.65)

5. Tang W, Tu L, Yang X, Tan J, Deng F, Hao J, Guo K, Lindsey K, Zhang X. (2014) The calcium sensor GhCaM7 promotes cotton fiber elongation by modulating reactive oxygen species (ROS) production. New Phytologist, 202: 509–520 (IF5year=7.88)

6. Hao J, Tu L, Hu H, Tan J, Deng F, Tang W, Nie Y, Zhang X. (2012) GbTCP, a cotton TCP transcription factor, confers fibre elongation and root hair development by a complex regulating system. Journal of Experimental Botany, 63: 6267-6281 (IF5year=6.54)

7. Munis MF, Tu L, Deng F, Tan J, Xu L, Xu S, Long L and Zhang X. (2010) A thaumatin-like protein gene involved in cotton fiber secondary cell wall development enhances resistance against Verticillium dahliae and other stresses in transgenic tobacco. Biochemical and Biophysical Research Communications, 393: 38–44 (IF5year=2.35)