陈建业

发布者:园艺学院发布时间:2018-04-30浏览次数:3071

陈建业


一、基本信息

197610月生,博士,华南农业大学园艺学院三级教授,博士生/硕士生导师;E-mail: chenjianye@scau.edu.cn,手机:13533981220。先后主持国家自然科学基金项目4项,科技部973和十二五科技支撑计划子课题2项和广州市科学研究计划重点项目1项。近五年在国内外核心期刊上发表研究论文46篇,其中被SCI收录37篇(通讯作者和第一作者15篇),影响因子5.0以上的6篇;作为通讯作者和第一作者的论文发表在Journal of Pineal Research, Plant Journal, Plant Cell and EnvironmentJournal of Experimental BotanyJournal of Agricultural and Food ChemistryPostharvest Biology and Technology等国际期刊上;尤其长期从事果蔬成熟衰老及逆境调控的研究,在香蕉果实成熟及冷害调控机制,菜心叶片衰老调控机制等方面的研究处于国内领先水平,在国际上也有广泛的影响。

二、学习与工作经历

1995-2002年,湖南农业大学,获农学学士和硕士学位;

2002-2005年,中国农业大学,获工学博士学位;

2005年至今在华南农业大学园艺学院工作,期间于2011-2012年赴美国purdue大学进行访学。

三、社会、学会及学术兼职

华南农业大学“丁颖人才支持工程”培养对象

广东省果蔬保鲜重点实验室副主任

中国园艺学会青年分会常务理事

中国热带作物学会理事

New PhytologistPlant JournalPlant Biotechnology Journal SCI杂志审稿人

四、主讲课程

《食品质量与安全》、《园艺产品信息学》和《园艺产品贮运学》等。

五、研究领域
1. 果蔬采后成熟衰老及调控的分子机理
 2.
果蔬采后抗逆性的分子机理
 3.
果蔬冷链物流保鲜技术研发
六、主要科研项目
1. 广州市科学研究计划重点项目专题火龙果果实糖酸代谢与调控的生物学基础2019-03-02-06-3007-0003);2019.4-2022.3200万,主持,在研;

2. 国家自然科学基金重点项目冷害影响采后香蕉果实成熟和品质形成过程中MYB转录因子的调控网络解析31830071);2019.1-2023.12284万;主要参加,在研;

3. 国家自然科学基金面上项目“NAC转录因子参与植物激素GAABA交互调控的菜心叶片衰老的机制解析31671897);2017.1-2020.1263万元,主持,在研;

4. 国家自然科学基金面上项目香蕉泛素连接酶E3介导的泛素化修饰调控果实成熟的机制研究31372111);2014.1-2017.1285万元,主持,结题;

5. 科技部973子课题果实细胞壁降解的调控机制研究2013CB127104);2015.1-2017.8 37.2万元,主持,结题。

七、获得奖励

1. 海南省科技进步一等奖:香蕉果品质量劣变与控制。2017年(排名第3)。

八、个人论著
代表性论文:

  1. Tan XL, Fan ZQ, Kuang JF, Lu WJ, Reiter RJ, Lakshmanan P, Su XG, Zhou J, Chen JY*, Shan W*. 2019. Melatonin delays leaf senescence of Chinese flowering cabbage by suppressing ABFs-mediated abscisic acid biosynthesis and chlorophyll degradation. Journal of Pineal Research, 67:e12570.

  2. Fan ZQ, Ba LJ1, Shan W1, Xiao YY1, Lu WJ1, Kuang JF*, Chen JY*. 2018. A banana R2R3-MYB transcription factor MaMYB3 is involved in fruit ripening through modulation of starch degradation by repressing starch degradation-related genes and MabHLH6. The Plant Journal, 96:1191-1205.

  3. Fan ZQ, Tan XL, Chen JW, Liu ZL, Kuang JF, Lu WJ, Shan W*, Chen JY*.  2018. BrNAC055, a novel transcriptional activator, regulates leaf senescence in Chinese flowering cabbage by modulating reactive oxygen species production and chlorophyll degradation. Journal of Agricultural and Food Chemistry, 66:9399-9408.

  4. Tan XL, Fan ZQ, Shan W, Yin XR, Kuang JF, Lu WJ,  Chen JY*. 2018. Association of BrERF72 with methyl jasmonate-induced leaf senescence of Chinese flowering cabbage through activating JA biosynthesis-related genes. Horticulture Research, 5:22.

  5. Fan ZQ, Tan XL, Shan W, Kuang JF, Lu WJ, Chen JY*. 2018. Characterization of a transcriptional regulator, BrWRKY6, associated with gibberellin-suppressed leaf senescence of Chinese flowering cabbage. Journal of Agricultural and Food Chemistry, 66:1791-1799.

  6. Cheng MN, Huang ZJ, Hua QZ, Shan W, Kuang JF, Lu WJ, Qin YH, Chen JY*. 2017. The WRKY transcription factor HpWRKY44 regulates CytP450-like1 expression in red pitaya fruit (Hylocereus polyrhizus). Horticulture Research, 4:17039.

  7. Luo DL, Ba LJ, Shan W, Kuang JF, Lu WJ, Chen JY*. 2017. Involvement of WRKY transcription factors in abscisic-acid-induced cold tolerance of banana fruit. Journal of Agricultural and Food Chemistry, 65:3627-3635.

  8. Fan ZQ, Tan XL, Shan W, Kuang JF, Lu WJ, Chen JY*. 2017. BrWRKY65, a WRKY transcription factor, is involved in regulating three leaf senescence-associated genes in Chinese flowering cabbage. International Journal of Molecular Sciences, 18: pii: E1228.

  9. Ye YJ, Xiao YY, Han YC, Shan W, Fan ZQ, Xu QG, Kuang JF, Lu WJ, Lakshmanan P, Chen JY*. 2016. Banana fruit VQ motif-containing protein5 represses cold-responsive transcription factor MaWRKY26 involved in the regulation of JA biosynthetic genes. Scientific Reports, 6:23632.

  10. Fan ZQ, Kuang JF, Fu CC, Shan W, Han YC, Xiao YY, Ye YJ, Lu WJ, Lakshmanan P, Duan XW, Chen JY*. 2016. The Banana Transcriptional Repressor MaDEAR1 Negatively Regulates Cell Wall-Modifying Genes Involved in Fruit Ripening. Frontiers in Plant Science, 7:1021.

  11. Shan W, Kuang JF, Lu WJ, Chen JY*. 2014. A banana fruit NAC transcription factor MaNAC1 is a direct target of 1 MaICE1 and involved in cold stress through interacting with MaCBF1. Plant Cell and Environment, 37:2116-2127.

  12. Peng HH, Shan W, Kuang JF, Lu WJ, Chen JY*. 2013. Molecular characterization of cold-responsive basic helix-loop-helix transcription factors MabHLHs that interact with MaICE1 in banana fruit. Planta, 238:937-953.

  13. Zhao ML, Wang JN, Shan W, Fan JG, Kuang JF, Wu KQ, Li XP, Chen WX, Chen JY*, Lu WJ*. 2013. Induction of jasmonate signaling regulators MaMYC2s and their interaction with an inducer of CBF cold-responsive pathway in methyl jasmonate-induced banana fruit chilling tolerance. Plant Cell and Environment, 36:30-51.

  14. Tang Y, Kuang JF, Wang FY, Chen L, Hong KQ, Xiao YY, Xie H, Lu WJ, Chen JY*. 2013. Molecular characterization of PR and WRKY genes during SA- and MeJA-induced resistance against Colletotrichummusae in banana fruit. Postharvest Biology and Technology, 79:62-68.

  15. Shan W, Kuang JF, Chen L, Xie H, Peng HH, Xiao YY, Li XP, Chen WX, Chen JY*, Lu WJ*. 2012. Molecular characterization of banana NAC transcription factors and their interactions with ethylene signaling component EIL during fruit ripening. Journal of Experimental Botany, 14:5171-5187.

九、指导学生情况

指导的博士研究生1人获得广东省优秀研究生荣誉称号;校级优秀博士论文1篇、硕士论文3篇;8人次获得国家奖学金。



20199月更新)




Copyright 2020 华南农业大学园艺学院版权所有 All Rights Reservecd

备案编号:粤ICP备05008874号 地址:广州市天河区五山路483号华南农业大学园艺学院 邮编:510642 行政办公室

管理登录  备案编号:粤ICP备05008874号

  • 园艺青年二维码

  • 网站二维码