杜海，男，土家族。1981年12月出生于贵州铜仁。农学博士，作物学博士后，教授，硕士研究生导师。
学习经历:
2001-2005：四川农业大学农学院农学专业，农学学士；
2005-2007：四川农业大学玉米研究所，作物遗传育种专业，农学硕士(导师：黄玉碧教授)；
2007-2013：四川农业大学玉米研究所，作物遗传育种专业，农学博士(导师：黄玉碧教授)；
2006-2010：中国农业科学院生物技术研究所，客座学生(导师：唐益雄研究员)；
2013-2016：西南大学农学与生物科技学院，油菜研究中心，在职博士后(导师：李加纳教授)；
2016-2017：Purdue University (普渡大学)，访问****(导师：朱健康教授)。
工作经历:
2013.9-2020.6：西南大学农学与生物科技学院，重庆市油菜工程研究中心；西南大学现代农业科学研究院，油菜生物学团队；副教授，硕士研究生导师；
2020.6-至今：西南大学农学与生物科技学院，重庆市油菜工程研究中心；西南大学现代农业科学研究院，油菜生物学团队；教授，硕士研究生导师。
研究方向:
根系生物学：联合多组学(主要包括生物信息学、基因组学、转录组学、代谢组学、蛋白质组学等)的方法在基因组水平研究转录因子基因家族、关键代谢通路等的进化机制及其作物重要性状形成的关系，挖掘其中调控油菜根系发育、营养高效利用和抗逆胁迫相关的关键基因；结合分子生物学、细胞生物学、遗传学等多学科的方法深入研究候选基因的分子作用机制。此外，我也开展一些前沿的测序技术(如单细胞测序、DNA甲基化等)、油菜群体遗传、油菜栽培生理等研究方向的相关工作。至2020年，我已累计发表国内外学术论文30余篇，SCI论文累计影响因子大于130，SCI论文累计被引用800余次，其中1篇论文入选高被引论文前1%。
主持或参研科研项目(主要):
[1]. 国家自然科学基金面上项目：MYB转录因子BnWERs调控甘蓝型油菜根毛发育的分子机制研究(**)，2021-2024年(项目主持人)；
[2]. 科技部重点研发计划：大田经济作物优质丰产的生理基础与调控-油菜优质丰产生理与技术调控研究(2018YFD**)，2018-2024年(子课题负责人)；
[3]. 国家自然科学基金面上项目：BnMYB93s转录因子基因调控甘蓝型油菜侧根发育的分子机制研究(**)，2017-2020年(项目主持人)；
[4]. 国家自然科学基金面上项目：甘蓝型油菜硫苷合成调控和转运关键基因的克隆及作用机制研究(**)，2015-2018年(项目主持人)；
[5]. 第55批国家博士后基金面上项目：调控油菜硫苷合成关键MYB基因的鉴定及其作用机制研究(2014M552297)，2014-2016年(项目主持人)。
[6]. 国家“973”项目：油菜高收获指数株型结构的遗传及分子解析(2015CB150201 )，2015-2020年(项目参研人)；
发表论文
被引频次来至 Web of Science (2020年12月更新，累计SCI引用800多次)
[1]. Wen J, Li P, Ran F, Guo P, Zhu J, Yang J, Zhang L, Chen P, Li J, Du H (通讯作者). Genome-wide characterization, expression analyses, and functional prediction of the NPF family in Brassica napus. BMC Genomics, 2020, DOI: 10.1186/s12864-020-07274-7 (IF₂₀₁₉=3.501).
[2]. Li P, Wen J, Chen P, Guo P, Ke Y, Wan M, Liu M, Phan Tran LS, Li J, Du H (通讯作者). MYB Superfamily in Brassica napus: Evidence for Hormone-Mediated Expression Profiles, Large Expansion, and Functions in Root Hair Development. Biomolecules, 2020, 10, 875; doi:10.3390/biom**. (IF₂₀₁₉=4.082).
[3]. Ke YZ, Wu YW, Zhou HJ, Chen P, Wang MM, Liu MM, Li PF, Yang J, Li JN, Du H (通讯作者). Genome-wide survey of the bHLH super gene family in Brassica napus. BMC Plant Biol. 2020, 20(1):115. doi: 10.1186/s12870-020-2315-8. (IF₂₀₁₉=3.670).
[4]. Yang J, Zhou J, Zhou HJ, Wang MM, Liu MM, Ke YZ, Li PF, Li JN, Du H (通讯作者). Global Survey and Expressions of the Phosphate Transporter Gene Families in Brassica napus and Their Roles in Phosphorus Response. Int J Mol Sci, 2020, 21(5). pii: E1752. doi: 10.3390/ijms**. (IF₂₀₁₉=4.556) (Citation=1)
[5]. Liang Z, Riaz A, Chachar S, Ding Y, Du H, Gu X. Epigenetic Modifications of mRNA and DNA in Plants. Mol Plant. 2020, 13(1):14-30. doi: 10.1016/j.molp.2019.12.007. (IF₂₀₁₉=10.812).
[6]. Zhe Liang, Yuke Geng, Changmian Ji, Hai Du (并列第一作者), Chui Eng Wong, Qian Zhang, Ye Zhang, Pingxian Zhang, Adeel Riaz, Sadaruddin Chachar, Yike Ding, Jing Wen, Yunwen Wu, Mingcheng Wang, Hongkun Zheng, Yanmin Wu, Viktor Demko, Lisha Shen, Xiao Han, Pengpeng Zhang, Xiaofeng Gu, Hao Yu. Mesostigma viride Genome and Transcriptome Provide Insights into the Origin and Evolution of Streptophyta. Adv. Sci, 2019, 7(1):**. doi: 10.1002/advs.. (IF₂₀₁₉=15.804) (Citation=1).
[7]. Xiao Z, Zhang C, Tang F, Yang B, Zhang L, Liu J, Huo Q, Wang S, Li S, Wei L, Du H, Qu C, Lu K, Li J, Li N. Identification of candidate genes controlling oil content by combination of genome-wide association and transcriptome analysis in the oilseed crop Brassica napus. Biotechnol Biofuels, 2019, 12:216. doi: 10.1186/s13068-019-1557-x. (IF₂₀₁₉=5.452) (Citation=1).
[8]. Xiao Z, Li N, Wang S, Sun J, Zhang L, Zhang C, Yang H, Zhao H, Yang B, Wei L, Du H, Qu C, Lu K, Li J. Genome-Wide Identification and Comparative Expression Profile Analysis of the Long-Chain Acyl-CoA synthetase (LACS) Gene Family in Two Different Oil Content Cultivars of Brassica napus. Biochem Genet, 2019, 57(6):781-800. doi: 10.1007/s10528-019-09921-5. (IF₂₀₁₉=1.931).
[9]. Liu MM, Wang MM, Yang J, Wen J, Guo PC, Ke YZ, Wu YW, Li PF, Li JN, Du H (通讯作者). Evolutionary and Comparative Expression Analyses of TCP Transcription Factor Gene Family in Land Plants. Int. J. Mol. Sci, 2019, 20(14), 3591 (IF₂₀₁₉=4.694) (Citation=1).
[10] . Guo P, Wen J, Yang J, Ke Y, Wang M, Liu M, Ran F, Wu Y, Li P, Li J, Du H (通讯作者). Genome-wide survey and expression analyses of the GRAS gene family in Brassica napus reveals their roles in root development and stress response. Planta, 2019, 250: 1051-1072 (IF₂₀₁₉=3.060) (Citation=1).
[11]. Wen J, Guo P, Ke Y, Liu M, Li P, Wu Y, Ran F, Wang M, Li J, Du H (通讯作者). The auxin response factor gene family in allopolyploid Brassica napus. PLoS One, 2019, 14(4):e**. doi: 10.1371/journal.pone.**. (IF₂₀₁₉=2.766) (Citation=2).
[12]. Lu K, Wei L, Li X, Wang Y, Wu J, Liu M, Zhang C, Chen Z, Xiao Z, Jian H, Cheng F, Zhang K, Du H, Cheng X, Qu C, Qian W, Liu L, Wang R, Zou Q, Ying J, Xu X, Mei J, Liang Y, Chai YR, Tang Z, Wan H, Ni Y, He Y, Lin N, Fan Y, Sun W, Li NN, Zhou G, Zheng H, Wang X, Paterson AH, Li J. Whole-genome resequencing reveals Brassica napus origin and genetic loci involved in its improvement. Nat Commun, 2019, 10(1): 1154 (IF₂₀₁₈=12.353). (Citation=13).
[13]. Wang MM, Liu MM, Ran F, Guo PC, Ke YZ, Wu YW, Wen J, Li PF, Li JN, Du H (通讯作者). Global Analysis of WOX Transcription Factor Gene Family in Brassica napus Reveals Their Stress- and Hormone-Responsive Patterns. Int J Mol Sci, 2018, 19(11). pii: E3470 (IF₂₀₁₈=3.687). (Citation=4).
[14]. Wu Y, Ke Y, Wen J, Guo P, Ran F, Wang M, Liu M, Li P, Li J, Du H (通讯作者). Evolution and expression analyses of the MADS-box gene family in Brassica napus. PLoS One, 2018, 13(7):e** (IF₂₀₁₈=2.766). (Citation=4).
[15]. 吴韵雯, 柯蕴倬, 冉凤, 文婧, 郭鹏程, 孙丽萍, 马姗姗, 李加纳, 杜海 (通讯作者). 甘蓝型油菜BnMYB193基因的克隆和表达分析. 农业生物技术学报, 2018, 26(7): 1155-1163.
[16]. Di F, Jian H, Wang T, Chen X, Ding Y, Du H, Lu K, Li J, Liu L. Genome-Wide Analysis of the PYL Gene Family and Identification of PYL Genes That Respond to Abiotic Stress in Brassica napus. Genes (Basel). 2018, 9(3). pii: E156 (IF₂₀₁₈=3.191). (Citation=12).
[17]. Zhu Y, Wang B, Tang K, Hsu CC, Xie S, Du H, Yang Y, Tao WA, Zhu JK. An Arabidopsis Nucleoporin NUP85 modulates plant responses to ABA and salt stress. PLoS Genet, 2017, 13(12):e** (IF₂₀₁₈=5.54) (Citation=11).
[18]. Du H, Ran F, Dong HL, Wen J, Li JN, Liang Z. Genome-Wide Analysis, Classification, Evolution, and Expression Analysis of the Cytochrome P450 93 Family in Land Plants. PLoS One, 2016, 11(10): e** (IF₂₀₁₆=2.806) (Citation=8).
[19]. Mei J, Ding Y, Li Y, Tong C, Du H, Yu Y, Wan H, Xiong Q, Yu J, Liu S, Li J, Qian W. Corrigendum: Transcriptomic comparison between Brassica oleracea and rice (Oryza sativa) reveals diverse modulations on cell death in response to Sclerotinia sclerotiorum. Sci Rep, 2016, 6: 34900 (IF₂₀₁₆=4.259) (Citation=2).
[20]. Li W, Lu J, Lu K, Yuan J, Huang J, Du H, Li J. Cloning and Phylogenetic Analysis of Brassica napus L. Caffeic Acid O-Methyltransferase 1 Gene Family and Its Expression Pattern under Drought Stress. PLoS One. 2016, 11(11): e** (IF₂₀₁₆=2.806) (Citation=2).
[21]. Zhang J, Zhang S, Li H, Du H, Huang H, Li Y, Hu Y, Liu H, Liu Y, Yu G, Huang Y. Identification of Transcription Factors ZmMYB111 and ZmMYB148 Involved in Phenylpropanoid Metabolism. Front Plant Sci, 2016, 7: 148. (IF₂₀₁₆=4.291) (Citation=7).
[22]. 杜海, 冉凤, 马珊珊, 柯蕴倬, 孙丽萍, 李加纳, 唐益雄. GmMYB042基因对类黄酮生物合成的调控作用. 作物学报, 2016, 42(1): 1-10.
[23]. 杜海, 冉凤, 刘静, 文婧，马珊珊, 柯蕴倬, 孙丽萍, 李加纳. 拟南芥硫苷生物合成相关基因的组织和胁迫诱导表达谱的全基因组分析.中国农业科学, 2016, 49(15): 2879-2897.
[24]. Du H, Liang Z, Zhao S, Nan MG, Phan Tran LS, Lu K, Huang YB, Li JN. The Evolutionary History of R2R3-MYB Proteins Across 50 Eukaryotes: New Insights Into Subfamily Classification and Expansion. Sci Rep, 2015, 5: 11037. (IF₂₀₁₅=5.228) (Citation=31).
[25]. Wei L, Jian H, Lu K, Filardo F, Yin N, Liu L, Qu C, Li W, Du H, Li J. Genome-wide association analysis and differential expression analysis of resistance to Sclerotinia stem rot in Brassica napus. Plant Biotechnol J, 2016, 4(6):1368-80. (IF₂₀₁₅=7.443) (Citation=57).
[26]. Du H, Wang YB, Xie Y, Liang Z, Jiang SJ, Zhang SS, Huang YB, Tang YX. Genome-Wide Identification and Evolutionary and Expression Analyses of MYB-related Genes in Land Plants. DNA Res. 2013, 20(5): 437-448. (IF₂₀₁₃=5.164) (Citation=66).
[27]. Du H, Feng BR, Yang SS, Huang YB, Tang YX. The R2R3-MYB Transcription Factor Gene Family in Maize. PLoS ONE, 2012, 7(6): e37463 (IF₂₀₁₂= 4.092) (Citation=122).
[28]. Du H, Yang SS, Liang Z, Feng BR, Liu L, Huang YB, Tang YX. Genome-wide analysis of the MYB transcription factor superfamily in soybean. BMC Plant Biol, 2012, 12: 106 (IF₂₀₁₂=3.447) (Citation=185).
[29]. Du H, Huang Y, Tang Y. Genetics and Metabolic Engineering of Isoflavonoid Biosynthesis. Appl Microbiol Biotechnol, 2010, 86(5): 1293-312 (IF₂₀₁₀ =3.28) (Citation=80).
[30]. Du H, Zhang L, Liu L, Tang XF, Yang WJ, Wu YM, Huang YB, Tang YX. Biochemical and Molecular Characterization of the Plant MYB Transcription Factors Family. Biochemistry (Mosc), 2009, 74(1): 1-11 (IF₂₀₀₉=1.327) (Citation=152).
[31]. DU Hai, TANG Xiao-Feng, LIU Lei, YANG Wen-Jie, WU Yan-Min, HUANG Yu-Bi, and TANG Yi-Xiong. Cloning and Functional Identification of Two MYB Transcription Factors GmMYBJ6 and GmMYBJ 7 in Soybean. ACTA AGRONOMICA SINICA(作物学报), 2008, 34 (7): 1179-1187.
[32]. 杜海, 刘蕾, 唐晓凤, 高杰, 杨文杰, 吴燕民, 黄玉碧, 唐益雄. 大豆MYB 转录因子GmMYBZ2 的鉴定、突变分析及原核. 农业生物技术学报, 2009, 17(2): 301-306.
[33]. 刘蕾, 杜海 (并列第一作者), 唐晓凤, 吴燕民, 黄玉碧, 唐益雄. MYB 转录因子在植物抗逆胁迫中的作用及其分子机理. 遗传, 2008, 30 (10): 1265-1271.
[34]. 杨文杰, 杜海, 方芳, 杨婉身, 吴燕民, 唐益雄. 大豆两个MYB 转录因子基因的克隆及表达分析. 中国农业科学, 2008, 41(4): 961-970.
[35]. Borun Feng, Sisi Yang, Hai Du, Xianbin Hou, Junjie Zhang, Hanmei Liu and Yubi Huang. Molecular characterization and functional analysis of plant WRKY genes. African Journal of Biotechnology, 2012, 11(72), pp. 13606-13613.
[36]. Gu Y, Liu Y, Zhang J, Liu H, Hu Y, Du H, Li Y, Chen J, Wei B, Huang Y. Identification and characterization of microRNAs in the developing maize endosperm. Genomics, 2013, 102 (5-6): 472-478 (IF₂₀₁₄=3.01) (Citation=18).
[37]. Chen J, Huang B, Li Y, Du H, Gu Y, Liu H, Zhang J, Huang Y. Synergistic influence of sucrose and abscisic acid on the genes involved in starch synthesis in maize endosperm. Carbohydr Res, 2011, 346(13): 1684-1691 (IF₂₀₁₁=2.332) (Citation=18).
成果与奖励

1.获2013年四川农业大学优秀博士毕业论文；

2. 申请获得四川省农作物玉米品种审定一个(川单455)，排名第9。
学术兼职
1. SCI 期刊：《Genomics》/《Frontiers in Plant Science》/《BMC Genomics》/《Scientific reports》/《Plant Physiology and Biochemistry》/《Plant Science》/《BMC Biological Research》/《PloS ONE》/《Current Genomics》/《Plant Molecular Biology Reporter》/《PeerJ》等SCI期刊的同行评审专家；
2.中文期刊《中国农业生物技术学报》/《油料作物学报》的同行评审专家。
研究生招生专业
1. 研究生招生方向：植物学、遗传学、生物化学与分子生物学 (长期欢迎热爱科研、勤奋好学、积极向上、有热情和团队合作精神的同学加入我们)。
联系方式
电话：**；E-mail：haidu81@aliyun.com/haidu81@126.com
通信地址：重庆市北碚区天生路2号西南大学农学与生物科技学院；邮编：400715


















CURRICULUM VITAE



Name: Hai Du Address: College of Agronomy and Biotechnology

Gender: Male Southwest University, Room 2
Date of birth: 21/12/1981 Tiansheng Road, Beibei District
Nationality: PR China 400716, Chongqing, China
Contact details: +86 **/dh**@swu.edu.cn/haidu81@126.com
Major Fields of Specialization: Biochemistry and Molecular Biology, Comparative Genomics, and Bioinformatics.



Professional Experience:



06/07/2013-25/06/2016 Postdoctoral, College of Agronomy and Biotechnology, Southwest University, China.

30/09/2016-30/09/2017 Led by Prof. Zhu Jiankang as a visiting scholar funded by the China Scholarship Council (CSC) to study the dynamic regulation of DNA methylation and plant stress responses at Purdue University of the United States, America.
04/09/2013-31/06/2020 Associate Professor, College of Agronomy and Biotechnology, Southwest University, China.
Since 31/06/2020 Professor, Southwest University/Rapeseed Research Institute/China.
Since 04/09/2013 Graduate Student Advisor, Southwest University/Rapeseed Research Institute/China.



Education:



01/09/2005-15/06/2013 Ph.D, Sichuan Agricultural University (successive postgraduate and doctoral programs of study), China

01/09/2001-25/06/2005 Bachelor, Sichuan Agricultural University, China



Research Interests:



· Comparative Genomics and Molecule Evolution (e.g., the detection of the evolutionary diversification of gene families; tracing of evolutionary mechanisms in protein function, and prediction of structure-function relationships; exploring the mechanisms of the emergence of new gene families or novel functions; establishment a causal link between gene duplication and the emergence of major evolutionary innovations; Genotype-phenotype relationships (e.g., evolution of development, behavioral evolution, and evolution of novel traits));

· Mechanisms of plant roots development;
· Resistance to stresses of plants (e.g., nutrient stress, drought, and high temperature);
· Hormone signaling in plant root development (e.g., root development) and stress response;
· Mechanisms of plant secondary metabolism regulation and translocation (e.g., flavonoids, and glucosinolates);



Publications:



[1]. Wen J, Li P, Ran F, Guo P, Zhu J, Yang J, Zhang L, Chen P, Li J, Du H (Corresponding author). Genome-wide characterization, expression analyses, and functional prediction of the NPF family in Brassica napus. BMC Genomics, 2020, DOI: 10.1186/s12864-020-07274-7.

[2]. Li P, Wen J, Chen P, Guo P, Ke Y, Wan M, Liu M, Phan Tran LS, Li J, Du H (Corresponding author). MYB Superfamily in Brassica napus: Evidence for Hormone-Mediated Expression Profiles, Large Expansion, and Functions in Root Hair Development. Biomolecules, 2020, 10, 875; doi:10.3390/biom**. (IF₂₀₁₉=4.082).
[3]. Ke YZ, Wu YW, Zhou HJ, Chen P, Wang MM, Liu MM, Li PF, Yang J, Li JN, Du H (Corresponding author). Genome-wide survey of the bHLH super gene family in Brassica napus. BMC Plant Biol. 2020, 20(1):115. doi: 10.1186/s12870-020-2315-8. (IF₂₀₁₉=3.670).
[4]. Yang J, Zhou J, Zhou HJ, Wang MM, Liu MM, Ke YZ, Li PF, Li JN, Du H (Corresponding author). Global Survey and Expressions of the Phosphate Transporter Gene Families in Brassica napus and Their Roles in Phosphorus Response. Int J Mol Sci, 2020, 21(5). pii: E1752. doi: 10.3390/ijms**. (IF₂₀₁₉=4.556).
[5]. Liang Z, Riaz A, Chachar S, Ding Y, Du H, Gu X. Epigenetic Modifications of mRNA and DNA in Plants. Mol Plant. 2020, 13(1):14-30. doi: 10.1016/j.molp.2019.12.007. (IF₂₀₁₉=10.812).
[6]. Zhe Liang, Yuke Geng, Changmian Ji, Hai Du (Co-first authors), Chui Eng Wong, Qian Zhang, Ye Zhang, Pingxian Zhang, Adeel Riaz, Sadaruddin Chachar, Yike Ding, Jing Wen, Yunwen Wu, Mingcheng Wang, Hongkun Zheng, Yanmin Wu, Viktor Demko, Lisha Shen, Xiao Han, Pengpeng Zhang, Xiaofeng Gu, Hao Yu. Mesostigma viride Genome and Transcriptome Provide Insights into the Origin and Evolution of Streptophyta. Adv. Sci, 2019, 7(1):**. doi: 10.1002/advs.. (IF₂₀₁₉=15.804).
[7]. Xiao Z, Zhang C, Tang F, Yang B, Zhang L, Liu J, Huo Q, Wang S, Li S, Wei L, Du H, Qu C, Lu K, Li J, Li N. Identification of candidate genes controlling oil content by combination of genome-wide association and transcriptome analysis in the oilseed crop Brassica napus. Biotechnol Biofuels, 2019, 12:216. doi: 10.1186/s13068-019-1557-x. (IF₂₀₁₉=5.452).
[8]. Xiao Z, Li N, Wang S, Sun J, Zhang L, Zhang C, Yang H, Zhao H, Yang B, Wei L, Du H, Qu C, Lu K, Li J. Genome-Wide Identification and Comparative Expression Profile Analysis of the Long-Chain Acyl-CoA synthetase (LACS) Gene Family in Two Different Oil Content Cultivars of Brassica napus. Biochem Genet, 2019, 57(6):781-800. doi: 10.1007/s10528-019-09921-5. (IF₂₀₁₉=1.931).
[9]. Liu MM, Wang MM, Yang J, Wen J, Guo PC, Ke YZ, Wu YW, Li PF, Li JN, Du H (Corresponding author). Evolutionary and Comparative Expression Analyses of TCP Transcription Factor Gene Family in Land Plants. Int. J. Mol. Sci, 2019, 20(14), 3591 (IF₂₀₁₉=4.694).
[10]. Guo P, Wen J, Yang J, Ke Y, Wang M, Liu M, Ran F, Wu Y, Li P, Li J, Du H (Corresponding author). Genome-wide survey and expression analyses of the GRAS gene family in Brassica napus reveals their roles in root development and stress response. Planta, 2019, 250: 1051-1072. doi: 10.1007/s00425-019-03199-y. (IF₂₀₁₉=3.060).
[11]. Wen J, Guo P, Ke Y, Liu M, Li P, Wu Y, Ran F, Wang M, Li J, Du H (Corresponding author). The auxin response factor gene family in allopolyploid Brassica napus. PLoS One, 2019, 14(4):e**. doi: 10.1371/journal.pone.**. (IF₂₀₁₉=2.766)
[12]. Lu K, Wei L, Li X, Wang Y, Wu J, Liu M, Zhang C, Chen Z, Xiao Z, Jian H, Cheng F, Zhang K, Du H, Cheng X, Qu C, Qian W, Liu L, Wang R, Zou Q, Ying J, Xu X, Mei J, Liang Y, Chai YR, Tang Z, Wan H, Ni Y, He Y, Lin N, Fan Y, Sun W, Li NN, Zhou G, Zheng H, Wang X, Paterson AH, Li J. Whole-genome resequencing reveals Brassica napus origin and genetic loci involved in its improvement. Nat Commun, 2019, 10(1):1154. doi: 10.1038/s41467-019-09134-9. (IF₂₀₁₈=12.353).
[13]. Wang MM, Liu MM, Ran F, Guo PC, Ke YZ, Wu YW, Wen J, Li PF, Li JN, Du H (Corresponding author). Global Analysis of WOX Transcription Factor Gene Family in Brassica napus Reveals Their Stress- and Hormone-Responsive Patterns. Int J Mol Sci, 2018, 19(11). pii: E3470. doi: 10.3390/ijms**. (IF₂₀₁₈=3.687).
[14]. Wu Y, Ke Y, Wen J, Guo P, Ran F, Wang M, Liu M, Li P, Li J, Du H (Corresponding author). Evolution and expression analyses of the MADS-box gene family in Brassica napus. PLoS One, 2018, 13(7):e**. doi: 10.1371/journal.pone.**. (IF₂₀₁₈=2.766).
[15]. Di F, Jian H, Wang T, Chen X, Ding Y, Du H, Lu K, Li J, Liu L. Genome-Wide Analysis of the PYL Gene Family and Identification of PYL Genes That Respond to Abiotic Stress in Brassica napus. Genes (Basel), 2018, 9(3). pii: E156. doi: 10.3390/genes**. (IF₂₀₁₈=3.191).
[16]. Zhu Y, Wang B, Tang K, Hsu CC, Xie S, Du H, Yang Y, Tao WA, Zhu JK. An Arabidopsis Nucleoporin NUP85 modulates plant responses to ABA and salt stress. PLoS Genet, 2017, 13(12): e**. doi: 10.1371/journal.pgen.**. (IF₂₀₁₈=5.54).
[17]. Du H, Ran F, Dong HL, Wen J, Li JN, Liang Z. Genome-Wide Analysis, Classification, Evolution, and Expression Analysis of the Cytochrome P450 93 Family in Land Plants. PLoS One, 2016, 11(10): e**. doi: 10.1371/journal.pone.**. (IF₂₀₁₆=2.806).
[18]. Mei J, Ding Y, Li Y, Tong C, Du H, Yu Y, Wan H, Xiong Q, Yu J, Liu S, Li J, Qian W. Corrigendum: Transcriptomic comparison between Brassica oleracea and rice (Oryza sativa) reveals diverse modulations on cell death in response to Sclerotinia sclerotiorum. Sci Rep, 2016, 6: 34900. doi: 10.1038/srep34900. (IF₂₀₁₆=4.259).
[19]. Li W, Lu J, Lu K, Yuan J, Huang J, Du H, Li J. Cloning and Phylogenetic Analysis of Brassica napus L. Caffeic Acid O-Methyltransferase 1 Gene Family and Its Expression Pattern under Drought Stress. PLoS One. 2016, 11(11): e**. doi: 10.1371/journal. pone. **. (IF₂₀₁₆=2.806).
[20]. Zhang J, Zhang S, Li H, Du H, Huang H, Li Y, Hu Y, Liu H, Liu Y, Yu G, Huang Y. Identification of Transcription Factors ZmMYB111 and ZmMYB148 Involved in Phenylpropanoid Metabolism. Front Plant Sci, 2016, 7: 148. doi: 10.3389/fpls.2016.00148. (IF₂₀₁₆=4.291).
[21]. DU Hai, RAN Feng, MA Shan-Shan, KE Yun-Zhuo, SUN Li-Ping, LI Jia-Na, and TANG Yi-Xiong. Regulating Effects of GmMYB042 Gene on Flavonoid Biosynthesis. ACTA AGRONOMICA SINICA, 2016, 42(1): 1-10. (In Chinese).
[22]. DU Hai, RAN Feng, LIU Jing, WEN Jing, MA Shan-shan, KE Yun-zhuo, SUN Li-ping, LI Jia-na. Genome-wide Expression Analysis of Glucosinolate Biosynthetic Genes in Arabidopsis Across Diverse Tissues and Stresses Induction. Agricultural Sciences in China, 2016, 49(15): 2879-2897. (In Chinese).
[23]. Du H, Liang Z, Zhao S, Nan MG, Phan Tran LS, Lu K, Huang YB, Li JN. The Evolutionary History of R2R3-MYB Proteins Across 50 Eukaryotes: New Insights Into Subfamily Classification and Expansion. Sci Rep, 2015, 5: 11037. doi: 10.1038/srep11037. (IF₂₀₁₅=5.228).
[24]. Wei L, Jian H, Lu K, Filardo F, Yin N, Liu L, Qu C, Li W, Du H, Li J. Genome-wide association analysis and differential expression analysis of resistance to Sclerotinia stem rot in Brassica napus. Plant Biotechnol J, 2016, 4(6):1368-80. doi: 10.1111/pbi. (IF₂₀₁₅=7.443).
[25]. Du H, Wang YB, Xie Y, Liang Z, Jiang SJ, Zhang SS, Huang YB, Tang YX. Genome-Wide Identification and Evolutionary and Expression Analyses of MYB-related Genes in Land Plants. DNA Res, 2013, 20(5): 437-448. doi: 10.1093/dnares/dst021. (IF₂₀₁₃=5.164).
[26]. Du H, Feng BR, Yang SS, Huang YB, Tang YX. The R2R3-MYB Transcription Factor Gene Family in Maize. PLoS ONE, 2012, 7(6): e37463. doi:10.1371/journal.pone.**. (IF₂₀₁₂= 4.092).
[27]. Du H, Yang SS, Liang Z, Feng BR, Liu L, Huang YB, Tang YX. Genome-wide analysis of the MYB transcription factor superfamily in soybean. BMC Plant Biol, 2012, 12: 106. doi: 10.1186/1471-2229-12-106. (IF₂₀₁₂=3.447).
[28]. Du H, Huang Y, Tang Y. Genetics and Metabolic Engineering of Isoflavonoid Biosynthesis. Appl Microbiol Biotechnol, 2010, 86(5): 1293-312. doi: 10.1007/s00253-010-2512-8. (IF₂₀₁₀=3.28).
[29]. Du H, Zhang L, Liu L, Tang XF, Yang WJ, Wu YM, Huang YB, Tang YX. Biochemical and Molecular Characterization of the Plant MYB Transcription Factors Family. Biochemistry (Mosc), 2009, 74(1): 1-11. (IF₂₀₀₉=1.327).
[30]. DU Hai, TANG Xiao-Feng, LIU Lei, YANG Wen-Jie, WU Yan-Min, HUANG Yu-Bi, and TANG Yi-Xiong. Cloning and Functional Identification of Two MYB Transcription Factors GmMYBJ6 and GmMYBJ7 in Soybean. ACTA AGRONOMICA SINICA, 2008, 34 (7): 1179-1187. (In Chinese)
[31]. DU Hai, LIU Lei, TANG Xiao-feng, ZHAO Yan-li, GAO Jie, WU Yan-min, HUANG Yu-bi, and TANG Yi-xiong. Characterization and Mutation of Soybean MYB Transcription Factor GmMYBZ2 and Its Prokaryotic Expression. Journal of Agricultural Biotechnology (China), 2009, 17:301-306. (In Chinese)
[32]. Liu L, DU H, Tang XF, Wu YM, Huang YB, Tang YX. The roles of MYB transcription factors on plant defense responses and its molecular mechanism. Yi Chuan, 2008, 30 (10): 1265-1271. (Co-first author) (In Chinese)
[33]. YANG Wen-jie, DU Hai, FANG Fang, YANG Wan-shen, WU Yan-min, TANG Yi-xiong. Cloning and Characterization of Two New MYB Transcription Factor Genes from Soybean. Scientia Agricultura Sinica, 2008, 41(4): 961-970. (In Chinese).
[34]. Borun Feng, Sisi Yang, Hai Du, Xianbin Hou, Junjie Zhang, Hanmei Liu and Yubi Huang. Molecular characterization and functional analysis of plant WRKY genes. African Journal of Biotechnology, 2012, 11(72), pp. 13606-13613.
[35]. Gu Y, Liu Y, Zhang J, Liu H, Hu Y, Du H, Li Y, Chen J, Wei B, Huang Y. Identification and characterization of microRNAs in the developing maize endosperm. Genomics, 2013, 102 (5-6): 472-478. (IF₂₀₁₄=3.01).
[36]. Chen J, Huang B, Li Y, Du H, Gu Y, Liu H, Zhang J, Huang Y. Synergistic influence of sucrose and abscisic acid on the genes involved in starch synthesis in maize endosperm. Carbohydr Res, 2011, 346(13): 1684-1691. (IF₂₀₁₁=2.332).



Major Funding Received so far:



01/01/2021-30/12/2024 National Natural Science Foundation of China (NSFC) (**), “Research on the molecular mechanisms of MYB transcription factor BnWERs involved in regulating root hairs development in Brassica napus”.

01/01/2018-30/12/2023 National Key Research and Development Program of China (2018YFD**), “Physiological basis and regulation of high quality and high yield of field crops-Study on physiological basis and regulating method of high yield of Brassica napus”.
01/01/2016-30/12/2020 National Natural Science Foundation of China (NSFC) (**), “Research on the functional mechanisms of BnMYB93s transcription factor genes regulating lateral roots development in Brassica napus”.
01/01/2014-30/12/2018 National Natural Science Foundation of China (NSFC) (**), “Research on the cloning and functional mechanisms of the key genes involved in regulating glucosinolate biosynthesis and glucosinolate translocation in Brassica napus”.
05/04/2014-05/04/2016 Postdoctoral Science Foundation funded project, China (2014M552297), “The identification and functional mechanisms of key MYB genes involved in glucosinolate biosynthesis in Brassica napus”.
01/01//2015-30/12/2020 The National Basic Research Program of China (973 Program) (2015CB150201), “The molecular biological mechanisms of high yield of oil in Brassica napus” (One of the major researchers).



Others:



Peer reviewer for: BMC Genomic, Genomics, Frontiers in Plant Science, Scientific reports, Plant Physiology and Biochemistry, Plant Science, BMC Biological Research, PloS ONE, Current Genomics, Plant Molecular Biology Reporter, PeerJ, etc.




Hobby:



I love sports, especially football (soccer).