赵杰堂

发布者:园艺学院发布时间:2018-04-30浏览次数:6925

一、基本信息

赵杰堂,汉族,籍贯:河南南阳,博士、教授、博士研究生导师。联系电话:020-85287296E-mailjtzhao@scau.edu.cn


二、学习与工作经历

教育背景

2004/9—2009/6,中山大学,生物技术专业,理学博士

2000/9—2004/7,河南师范大学,生物技术专业,理学学士

研究经历

2023/7,华南农业大学,园艺学院,教授

2018/1—2023/6,华南农业大学,园艺学院,副教授

2013/8—2017/12,华南农业大学,园艺学院,讲师

2010/8—2013/4,美国佛罗里达大学,博士后

2009/8—2010/8,中国科学院华南植物园,助理研究员


三、主讲课程

《园艺植物育种学原理》;《园艺植物生物技术》;《园艺概论》


四、研究领域

果树生物技术和分子生物学;果树种质资源与遗传育种


五、主持科研项目

国家自然科学基金面上项目,转化酶抑制子LcINH1/2调控荔枝焦核形成的机制研究(32172528),2022.1—2025.1258万元

广东省重点领域研发计划“现代种业”重大专项(课题),提早荔枝成熟砧木种质创制及新品种选育(2022B0202070002),2022.1—2025.1242万元

广州市科技局重点研发计划项目,耐贮运、 优质荔枝新品种选育及高效栽培技术研究(202103000057),2021.4—2024.3100万元

国家重点研发计划(子课题),荔枝、枇杷育种共性关键技术研究(2019YFD1000902),2019.7—2022.1262万元

国家自然科学基金青年基金,荔枝细胞壁转化酶基因家族与焦核发生的相关性研究(31501734),2016.1—2018.1225.2万元

广州市珠江新星科技专项,脱落酸(ABA)促进荔枝果皮花色素苷积累的生理生化及分子机理(201610010147),2016.5—2019.430万元

48期教育部留学回国人员科研启动基金,荔枝酸性转化酶基因家族分析及与果实品质相关性研究,2015.01—2016.123万元


六、个人论著

Li S, Qin Y, Jing S, Wang D, Zhang Z, Qin Y, Hu G, Zhao J*. 2023. Metabolomeand transcriptome analyses reveal the molecular mechanisms of LcMYB1 regulating anthocyanin accumulation in litchi hairy roots, Plant Physiology et Biochemistry, 200: 107749.

Wang D, Chen L, Yang Y, Abbas F, Qin Y, Lu H, Lai B, Wu Z, Hu Bing, Qin Y, Wang H, Zhao J*, Hu G*. 2023. Integrated metabolome and transcriptome analysis reveals the cause of anthocyanin biosynthesis deficiency in litchi aril. Physiologia Plantarum 175: e13860.

Zhao J, Chen L, Ma A, Wang D, Lu H, Chen L, Wang H, Qin Y, Hu G. 2022. R3-MYB transcription factor LcMYBx from Litchi chinensis negatively regulates anthocyanin biosynthesis by ectopic expression in tobacco. Gene 812: 146105.

Qin Y, Wang D, Fu J, Zhang Z, Qin Y, Hu G*, Zhao J*. 2021. Agrobacterium rhizogenes-mediated hairy root transformation as an efficient system for gene function analysis in Litchi chinensis. Plant Methods 17: 103.

Fan S, Wang D, Xie H, Wang H, Qin Y, Hu G, Zhao J*. 2021. Sugar transport, metabolism and signaling in fruit development of Litchi chinensis Sonn.: A Review. International Journal of Molecular Sciences. 22(20):11231.

Ma A, Wang D, Lu H, Wang H, Qin Y, Hu G*, Zhao J*. 2021. LcCOP1 and LcHY5 control the suppression and induction of anthocyanin accumulation in bagging and debagging litchi fruit pericarp. Scientia Horticulturae 287: 110281.

Hu F, Chen Z, Wang X, Wang J,  Fan H, Qin Y, Zhao J*, Hu G*. 2021. Construction of high-density SNP genetic maps and QTL mapping for dwarf-related traits in Litchi chinensis Sonn. Journal of Integrative Agriculture, 20(11): 2900–2913.

Xie H, Wang D, Qin Y, Ma A, Fu J, Qin Y, Hu G, Zhao J*. 2019. Genome-wide identification and expression analysis of SWEET gene family in Litchi chinensis reveal the involvement of LcSWEET2a/3b in early seed development. BMC Plant Biology, 19:499.

 Hu B, Lai B, Wang D, Li J, Chen L, Qin Y, Wang H, Qin Y, Hu G*, Zhao J*. 2019. Three LcABFs are involved in the regulation of chlorophyll degradation and anthocyanin biosynthesis during fruit ripening in Litchi chinensis. Plant and Cell Physiology, 60: 448-461.

 Chen L, Hu B, Qin Y, Hu G, Zhao J*. 2019. Advance of the negative regulation of anthocyanin biosynthesis by MYB transcription factors. Plant Physiology and Biochemistry 136: 178–187.

 Zhang J, Wu Z, Hu F, Liu L, Huang X, Zhao J*, Wang H*. 2018. Aberrant seed development in Litchi chinensis is associated with the impaired expression of cell wall invertase genes. Horticulture Research, 5:39.

 Hu B, Li J, Wang D, Wang H, Qin Y, Hu G, Zhao J*. 2018. Transcriptome profiling of Litchi chinensis pericarp in response to exogenous cytokinins and abscisic acid. Plant Growth Regulation, 84: 437-450.

 Liu R, Lai B, Hu B, Qin Y, Hu G, Zhao J*. 2017. Identification of microRNAs and their target genes related to the accumulation of anthocyanins in Litchi chinensis by high-throughput sequencing and degradome analysis. Frontiers in Plant Science, 7: 2059.

秦雅琪,胡桂兵,赵杰堂*. 2020. 发根农杆菌介导的荔枝 LcMYB1转化烟草叶片的研究. 园艺学报,47(4):635-642.

赵杰堂. 2016. 蔗糖转化酶在高等植物生长发育及胁迫响应中的功能研究进展. 热带亚热带植物学报,24(3): 352–358.

赵杰堂. 2016. 激素调控植物花青素合成分子机制的研究进展. 分子植物育种,14(7): 1884-1891


七、主要成果

新品种

马贵荔(热品审2015005,排名第11;红脆糯(粤审果2019004),排名第4

植物新品种权

早巨荔1号,品种权号:CNA20201005159,培育人:赵杰堂、胡桂兵、刘成明、傅嘉欣、秦永华。

巨美人,品种权号:CNA20201003610,培育人:胡桂兵、赵杰堂、刘成明、傅嘉欣、秦永华。

早荔1号,品种权号:CNA20181779.3,培育人:胡桂兵、欧阳若、王泽槐、刘成明、秦永华、赵杰堂、傅嘉欣。


专利

荔枝花色素苷生物合成负调控基因及其应用,国家发明专利(专利号:ZL 2018 1 0863444.6),排名第1

细胞壁酸性转化酶抑制子基因LcCIF及其应用,国家发明专利(专利号:ZL 2015 1 0652952.6),排名第2

一种提高荔枝焦核率的菌液和方法,国家发明专利(专利号:ZL 2015 1 0655540.8),排名第5

一种提高糯米糍荔枝坐果率的菌液及其方法,国家发明专利(专利号:ZL 2015 1 0652694.1),排名第5

标准

胡桂兵、黄旭明、刘建玲、赵杰堂、孙娟、傅嘉欣、钟鑫、刘成明. 中华人民共和国农业行业标准(荔枝高接换种技术规程),NY/T 42282022202331

孔文辉、胡桂兵、常虹、王思威、朱文斌、欧阳建忠、黄旭明、赵杰堂、徐海权、罗成祝、杨晓霞、刘锐波. 广东省农业标准化协会团体标准(从化荔枝高接换种技术规程),T/GDNB 20—2021202125

八、获奖情况

 2016年入选广州市珠江科技新星

 “荔枝高接换种提质增效技术研发与推广”获得2020年度广东省农业技术推广奖一等奖,排名第1

 “不同熟期优质荔枝系列新品种选育和高接换种技术创新及应用”获得2019年度广东省科技进步奖一等奖,排名第7

 “华南农业大学荔枝科技创新团队”获得2018-2019年度神农中华农业科技奖优秀创新团队奖,排名第12

 “校所协同的园艺专业实践教学模式研究与实践”获得华南农业大学2017年教学成果奖一等奖和第八届广东省教育教学成果奖二等奖,排名第7

 2018年获得华南农业大学青年教师教学优秀奖二等奖


personal resume

Prof.JietangZhao

CollegeofHorticulture

South China Agricultural University

Guangzhou,Guangdong510642,P. R. China

Tel: (+86) 020-85287296

E-mail: jtzhao@scau.edu.cn /2018/0430/c9140a224595/page.htm

Education

l  Ph.D. (Biotechnology)

Sun Yat-Sen University, Guangzhou, 2009

l  B.S. (Biotechnology)

Henan Normal University, Xinxiang, 2004

Areaof Expertise

Plantbiotechnology and molecular biology, Fruit breeding

SelectedPublications

1.Huang M, Guo W, Wu X, Qin Y, Sabir·IA, Zhang Z, Qin Y, Hu G, Zhao J*. 2024. Somatic embryogenesis and plant regeneration of Litchi chinensis Sonn. cv. ‘Zili’ from immature zygotic embryos. Plant Cell, Tissue and Organ Culture, 156: 39.

2.            Wang DChen LYang YAbbas FQin YLu HLai BWu Z Hu BQin YWang HZhao J*Hu G*. 2023. Integrated metabolome and transcriptome analysis reveals the cause of anthocyanin biosynthesis deficiency in litchi aril. Physiologia Plantarum, 175: e13860.

3.            Zhao J, Chen L, Ma A, Wang D, Lu H, Chen L, Wang H, Qin Y, Hu G. 2022. R3-MYB transcription factor LcMYBx from Litchi chinensis negatively regulates anthocyanin biosynthesis by ectopic expression in tobacco. Gene, 812: 146105.

4.            Qin Y, Wang D, Fu J, Zhang Z, Qin Y, Hu G, Zhao J*. 2021. Agrobacterium rhizogenes-mediated hairy root transformation as an efficient system for gene function analysis in Litchi chinensis. Plant Methods, 17: 103.

5.            Ma A, Wang D, Lu H, Wang H, Qin Y, Hu G, Zhao J*. 2021. LcCOP1 and LcHY5 control the suppression and induction of anthocyanin accumulation in bagging and debagging litchi fruit pericarp. Scientia Horticulturae, 287: 110281.

6.            Xie H, Wang D, Qin Y, Ma A, Fu J, Qin Y, Hu G, Zhao J*. 2019. Genome-wide identification and expression analysis of SWEET gene family in Litchi chinensis reveal the involvement of LcSWEET2a/3b in early seed development. BMC Plant Biology, 19:499.

7.            Hu B, Lai B, Wang D, Li J, Chen L, Qin Y, Wang H, Qin Y, Hu G*, Zhao J*. 2019. Three LcABFs are involved in the regulation of chlorophyll degradation and anthocyanin biosynthesis during fruit ripening in Litchi chinensis. Plant and Cell Physiology, 60: 448-461.

8.            Chen L, Hu B, Qin Y, Hu G, Zhao J*. 2019. Advance of the negative regulation of anthocyanin biosynthesis by MYB transcription factors. Plant Physiology and Biochemistry, 136: 178–187.

9.            Zhang J, Wu Z, Hu F, Liu L, Huang X, Zhao J*, Wang H*. 2018. Aberrant seed development in Litchi chinensis is associated with the impaired expression of cell wall invertase genes. Horticulture Research, 5:39.

10.        Liu R, Lai B, Hu B, Qin Y, Hu G, Zhao J*. 2017. Identification of microRNAs and their target genes related to the accumulation of anthocyanins in Litchi chinensis by high-throughput sequencing and degradome analysis. Frontiers in Plant Science, 7: 2059.




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