基本信息
吴廷全,研究员,硕士生导师,广东省农业科学院设施农业研究所新技术研究室主任。目前以第一作者和通讯作者在《Plant Biology》、《Plant Physiology and Biochemistry》、《Molecular Breeding》、《plant disease》等国际知名期刊共发表科研学术论文29篇,获得授权发明专利47件,选育品种14个,获省科技进步二等奖和省推广二等奖各1项。
联系方式:Email:tingquanwu@sina.com
Tel: 13316188657
通讯地址:广州市天河区五山白石岗街2号
教育背景和工作经历
教育经历:
(1) 2004-09至2009-06,南京农业大学,植物病理学,博士
(2) 1996-09至2000-06,中国科学技术大学,农学,学士
博士后工作经历:
(1) 2009-07至2011-08,中国科学院遗传与发育生物学研究所
科研与学术工作经历(博士后工作经历除外):
(1) 2021-09至 今,广东省农业科学院设施农业研究所,设施农业新技术研究室,研究员
(2) 2020-12至2021-08,广东省农业科学院蔬菜研究所,应用基础研究室,研究员
(3) 2014-01至2020-11,广东省农业科学院蔬菜研究所,应用基础研究室,副研究员
(4) 2015-08至2016-08,俄勒冈州立大学(美国),植物病理学系(访学),副研究员
(5) 2011-09至2013-12,广东省农业科学院蔬菜研究所,瓜类研究三室,助理研究员
(6) 2000-07至2004-08,安徽省农业科学院烟草研究所,植物保护研究室,研究实习员
研究方向:
蔬菜抗病抗逆机理研究及种质改良
主要科研项目:
1、广州市重点研发计划项目, 2024B03J1271,基于基因编辑的高抗疫病黄瓜育种技术研究及应用,2024-01至2026-12,50万元,主持;
2、广东省农业科学院生物育种研究中心课题(子课题),XT202213-02,基于多组学技术的作物品质遗传基础解析及关键基因挖掘, 2022-01至2026-12,45万元,主持;
3、广东省科技计划粤港澳大湾区国际科技创新中心建设项目, 2021A0505050004,外籍青年科研人员来广东进行蔬菜对疫病抗性的代谢机理研究学术交流与工作,2021-01至2022-12,12万元,主持;
4、广东省自然科学基金项目,2019A1515011310,CsPUB54与pmRXLR1互作负向调控黄瓜对疫病抗性的分子机理研究,2019-10至2022-09,10
,主持;
5、广东省重点领域研发计划项目2018B020202010, “优质多抗菜心芥蓝新品种选育”子课题“菜心芥蓝高抗优质种质资源筛选与基因挖掘”2019-01至2022-12,50万元,主持;
6、广东省科技计划项目,2019B030316015,华南抗疫病蔬菜资源的收集、筛选、鉴评及应用技术开发,2018-09至2021-09,100
,主持;
7、广州市重点研发计划项目,201804020047,黄瓜抗疫病相关抗体组平台的建立及其在瓜类抗疫病机理研究上的应用,2018-04至2021-04,200
,主持;
8、国家自然科学基金面上项目,31471890,华南型黄瓜全雌基因的图位克隆及功能验证,2015-01至2018-12,65
,主持;
9、广东省自然科学基金项目,S2012010010722,华南型黄瓜全雌基因精细定位及候选基因克隆,2012-10至2014-10,5
,主持;
10、广东省农业科学院院长基金项目,201203,华南型黄瓜全雌基因精细定位与候选基因分析,2012-01至2014-12,15
,主持;
11、中国博士后科学基金面上项目,20100470604,小麦禾谷镰刀菌致病相关基因的筛选、克隆及功能分析,2010-08至2012.07,3
,主持。
发表论文(第一/通讯作者):
1. Ahmad A, Shahzadi I, Ali Q*, Umer M, Yasin NA, Akram W,Wu T*, Khan WU, Shah AA. Cropping patterns for phenology stability and resource conservation under extreme climates. Frontiers in Agronomy, 2025. DOI:10.3389/fagro.2025.1672935.1.
2. Cao H, Wang R, Zhao J, Shi L, Huang Y,Wu T*, Zhang C*. Genome-wide identification and expression analysis of the cryptochromes reveal the CsCRY1 role under low-light-stress in cucumber. Frontiers in Plant Science. 2024 Apr 10;15:1371435.
3. Wang R, Lin YE, Zhang C, Wu H, Jin Q, Guo J, Cao H, Tan D,Wu T*. Fine mapping and analysis of a candidate gene controlling Phytophthora blight resistance in cucumber. Plant Biology. 2024 Jun;26(4):583-91.
4. Aqeel A, Wang R, Samavia M, Akram W, Du H, Nasim Ahmad Y, Moman K &Wu T*. Comparative transcriptomics reveals defense acquisition in Brassica rapa by synchronizing brassinosteroids metabolism with PR1 expression. European Journal of Plant Pathology, 2022, 162, 869–884.
5. Ahmad A, Akram W, Wang R, Shahzadi I, Umer M, Ahmad Yasin N,Wu T*. Pathogenicity factors of Phytophthora melonis revealed by comparative proteomics. Journal of Plant Interactions, 2022, 17(1), 183-197.
6. Ahmad A, Ahmad Yasin N*, Ullah Khan W, Akram W, Wang R, Ali Shah A, Akbar M, Ali A,Wu T*. Silicon assisted ameliorative effects of iron nanoparticles against cadmium stress: Attaining new equilibrium among physiochemical parameters, antioxidative machinery, and osmoregulators of Phaseolus lunatus. Plant Physiology and Biochemistry, 2021, 166:874-886.
7. Ahmad A, Shahzadi I, Mubeen S, Ahmad Yasin N, Akram W, Ullah Khan W,Wu T*. Karrikinolide alleviates BDE-28, heat and Cd stressors in Brassica alboglabra by correlating and modulating biochemical attributes, antioxidative machinery and osmoregulators. Ecotoxicology and Environmental Safety, 2021, 213: 112047.
8. Aqeel Ahmad, Waheed Akram, Zoobia Bashir, Iqra Shahzadi, Rui Wang, Hafiz Muhammad Khalid Abbas, Du Hu, Shakeel Ahmed, Xiaomei Xu, Guihua Li, andTingquan Wu*. Functional and Structural Analysis of a Novel Acyltransferase from Pathogenic Phytophthora melonis. ACS Omega, 2021, 6(3): 1797-1808.
9. Rui Wang, Aqeel Ahmad, Hu Du, Xiaomei Xu, Yan Zhang, Chunpeng Yao, Yujuan Zhong, and Tingquan Wu*. First report of rot disease caused by Rhizopus microsporus var. chinensis on leaf mustard (Brassica juncea) in Guangzhou, China. Plant Disease, 2020, 104(7): 2029.
10. Aqeel Ahmad, Waheed Akram, Iqra Shahzadi, Rui Wang, Du Hu, Guihua Li, Nasim Ahmad Yasin, Shakeel Ahmed, andTingquan Wu*. First Report of Fusarium nelsonii Causing Early-Stage Fruit Blight of Cucumber in Guangzhou, China. Plant Disease, 2020, 104(5):1542.
11. Ahmad, Aqeel, Tanveer A. Khan, Samavia Mubeen, Iqra Shahzadi, Waheed Akram, Taiba Saeed, Zoobia Bashir, Rui Wang, Mufid Alam, Shakeel Ahmed, Du Hu, Guihua Li, andTingquan Wu*. Metabolic and Proteomic Perspectives of Augmentation of Nutritional Contents and Plant Defense in Vigna unguiculata. Biomolecules, 2020, 10(2):224.
12. Aqeel Ahmad, Waheed Akram, Iqra Shahzadi, Rui Wang, Du Hu, Zoobia Bashir, Waqar Jaleel, Shakeel Ahmed, Wajeeha Tariq, Guihua Li,Tingquan Wu*, Nasim Ahmad Yasin and Shazia Shafique. Benzenedicarboxylic acid upregulates O48814 and Q9FJQ8 for improved nutritional contents of tomato and low risk of fungal attack. Journal of the Science of Food and Agriculture, 2019, 99 (14): 6139-6154.
13. Rui Wang, Hu Du, Qingmin Jin, Yu’e Lin, Yujuan Zhong, Chunpeng Yao, Xiaomei Xu and Tingquan Wu*. Stability determination of candidate reference genes in cucumber plants subjected to stresses from Phytophthora melonis. Journal of Plant Science and Phytopathology, (2019) 3: 028-035.
14. Rui Wang, Yu'e Lin, Qingmin Jin, Chunpeng Yao, Yujuan Zhong,Tingquan Wu*. RNA-Seq analysis of gynoecious and weak female cucumber revealing the cell cycle pathway may regulate sex determination in cucumber. Gene, 2019, 687:289-297.
15. Xiaomei Xu, Rui Wang, Juan Chao, Yu′e Lin, Qingmin Jin, Xiaoming He, Shaobo Luo andTingquan Wu*. The expression patterns of Cucumis sativus WRKY (CsWRKY) family under the condition of inoculation with Phytophthora melonis in disease resistant and susceptible cucumber cultivars. Canadian Journal of Plant Science, 2015, 95(6): 1121-1131.
16.Tingquan Wu, Rui Wang, Xiaomei Xu, Xiaoming He, Baojuan Sun, Yujuan Zhong, Zhaojuan Liang, Shaobo Luo* and Yu′e Lin*. Cucumis sativus L-type lectin receptor kinase (CsLecRK) gene family response to Phytophthora melonis, Phytophthora capsici and water immersion in disease resistant and susceptible cucumber cultivars. Gene, 2014, 549 (2):214-222.
17.Tingquan Wu#, Shaobo Luo#, Rui Wang, Yujuan Zhong, Xiaomei Xu, Yu’e Lin, Xiaoming He, Baojuan Sun and Hexun Huang*. The First Illumina-Based De Novo Transcriptome sequencing and analysis of pumpkin (Cucurbita moschata Duch) and SSR marker development. Molecular Breeding, 2014, 34 (3): 1437-1447.
18. Rui Wang, Hexun Huang, Yu’e Lin, Qinghua Chen, Zhaojun Liang andTingquan Wu*. Genetic and Gene Expression Analysis 1 of dm1,a Dwarf Mutant from Cucurbita maxima Duch.ex Lam, based on AFLP method. Canadian Journal of Plant Science, 2014, 94 (2):293-302.
19.Tingquan Wu, Dingzhong Tang, Weida Chen, Hexun Huang, Rui Wang, Yongfang Chen*. Expression of antimicrobial peptides thanatin(S) in transgenic Arabidopsis enhanced resistance to phytopathogenic fungi and bacteria. Gene, 2013, 527 (1):235-242.
20.Tingquan Wu*, Yongfang Chen, Weida Chen, Shenghao Zou, Yongqing Zhang, Yu’e Lin, Zhaojun Liang, Dingzhong Tang. Transgenic expression of an insect diapause-specific peptide (DSP) in Arabidopsis resists phytopathogenic fungal attacks. European Journal of Plant Pathology. 2013, 137(1):93-101.
21.Wu Tingquan, Guo An, Zhao Yanying, Wang Xiaomeng, Wang Ying, Zhao Dan, Li Xiaojie, Ren Haiying, Dong Hansong*. Ectopic expression of the rice lumazine synthase gene contributes to defense responses in transgenic tobacco. Phytopathology. (2010) 100 (6):573-81.
22. XIAOJING WU#,TINGQUAN WU#, JUYING LONG, QIAN YIN, YONG ZHANG, LEI CHEN, RUOXUE LIU, TONGCHUN GAO, and HANSONG DONG*. Productivity and biochemical properties of green tea in response to full length and functional fragments of HpaGXooc, a harpin protein from the bacterial rice leaf streak pathogen Xanthomonas oryzae pv. Oryzicola. Journal of Biosciences, 2007, 32(6):1119-1131.
23.王瑞,吴红霏,张长远,曹海顺,谭德龙,郭金菊,王云龙,王茹芳,袁余,吴廷全*. (2025). CsPUB54与PmRXLR1互作负向调控黄瓜对疫病的抗性.园艺学报,52(03),591-602.
24.吴红霏,施招婉,王瑞,涂攀峰,曹海顺,郭金菊,张长远,谭德龙,王茹芳,王云龙,袁余,吴廷全*. (2025).瓜类作物响应高温逆境的研究进展.中国农学通报,41(12),26-33.
25.谭德龙,王瑞,郑锦荣,王茹芳,郭金菊,曹海顺,王云龙,袁余,吴廷全*. (2024).四种防治白粉病药剂对加州新小绥螨的安全系数和捕食功能影响.应用昆虫学报,61(03),634-650.
26.金庆敏,林毓娥,王瑞,钟玉娟,吴廷全*. (2023).基于SSR分子标记的‘粤秀3号’黄瓜杂交种子纯度及真实性鉴定.广东农业科学,50(09),49-58.
27.王瑞,金庆敏,杨晓珊,吴廷全*.(2021).蔬菜疫病抗性鉴定技术研究进展.广东农业科学, 48(9),133-141.
28.王瑞,林毓娥,杜虎,金庆敏,杨晓珊,吴廷全*. (2019).快速鉴定瓜类疫病抗性方法的建立及黄瓜种质资源鉴定.广东农业科学,46(10),13-18.
29.王瑞,林毓娥,梁肇均,金庆敏,吴廷全*. (2016).广东地区黄瓜疫病病原菌的分离与鉴定.中国农学通报,32(01):76-80.
授权专利:
1.吴廷全;王瑞;曹海顺;张长远;郭金菊;谭德龙;王云龙;王茹芳;袁余. CaPGR5基因对黄瓜疫病的抗性及应用, ZL202410505780.9;
2.吴廷全;曹海顺;王瑞;张长远;吴红霏;谭德龙;郭金菊;王云龙;王茹芳;袁余. CaPTPMKP1基因对瓜类疫霉和辣椒疫霉的抗性及应用, ZL202410090264.4;
3.吴廷全;王瑞;曹海顺;张长远;谭德龙;郭金菊;王云龙;王茹芳;袁余. CaPP2C基因对瓜类疫霉和辣椒疫霉的抗性及应用, ZL202410090277.1;
4.吴廷全;张长远;王瑞;谭德龙;王茹芳;郭金菊;曹海顺.菜心胞质磺基转移酶基因BraSOT12在抗霜霉病中的应用, ZL202210572878.7;
5.吴廷全;王瑞;张长远;郭金菊;王茹芳;曹海顺;谭德龙.菜心乳胶蛋白基因BraMLP1在抗霜霉病中的应用, ZL202210572764.2;
6.吴廷全;杜虎;王瑞;林毓娥;徐晓美;金庆敏;阿奎尔·艾哈迈德;杨晓珊.黄瓜脂磷酸磷酸酶CsLPPε2在抗瓜类疫病中的应用, 202110966646.5;
7.吴廷全;王瑞;杜虎;林毓娥;徐晓美;姚春鹏;阿奎尔·艾哈迈德;金庆敏.黄瓜光合系统II反应中心蛋白CsPSII-CP47及其在抗瓜类疫病中的应用, 202110971301.9;
8.吴廷全;杜虎;王瑞;徐晓美;金庆敏;杨晓珊.黄瓜捕光叶绿素a/b结合蛋白CsPS1在抗瓜类疫病中的应用, ZL202010965967.9;
9.吴廷全;王瑞;林毓娥;金庆敏;徐晓美;钟玉娟;姚春鹏;谢大森;罗少波;李明珠;梁肇均.一种快速鉴定黄瓜对疫病抗性的方法, ZL201711096604.0;
10.吴廷全;陈永芳;陈伟达;姚爱玉;张永清;唐定中.昆虫抗菌肽Drosomycin融合蛋白及其在植物抗病中的应用, ZL201110344287.6
11.吴廷全;陈永芳;陈伟达;姚爱玉;张永清;唐定中.昆虫抗菌肽DSP融合蛋白及其在植物抗病中的应用, ZL201110344468.9;
12.吴廷全;陈永芳;邹声浩;陈伟达;姚爱玉;张永清;唐定中.昆虫抗菌肽Thanatin(S)融合蛋白及其在植物抗病中的应用, ZL201110344260.7;
13.王瑞;吴廷全;张长远;曹海顺;谭德龙;郭金菊;王云龙;王茹芳;袁余. CaTRPL基因对瓜类疫霉和辣椒疫霉的抗性及应用, ZL202410090258.9;
14.王瑞;吴廷全;曹海顺;张长远;郭金菊;谭德龙. CaNAT10基因对黄瓜疫病的抗性及应用, ZL202410505781.3;
15.谭德龙;吴廷全;黄松涛;王瑞;唐忠波.一种农业废弃物发酵池, ZL202420677801.0;
16.王瑞;吴廷全;张长远;曹海顺;谭德龙;郭金菊;王云龙;王茹芳;袁余. CaTRPL基因对瓜类疫霉和辣椒疫霉的抗性及应用, ZL202410090277.1;
17.王瑞;吴廷全;张长远;曹海顺;郭金菊;谭德龙;王茹芳.菜心LRR受体蛋白激酶基因BraEFR在抗霜霉病中的应用, ZL202210572769.5;
18.王瑞;吴廷全;杜虎;林毓娥;徐晓美;金庆敏;杨晓珊.黄瓜光合系统I反应中心N亚基蛋白CsPSI-N在抗瓜类疫病中的应用, ZL202110966521.2;
19.金庆敏;吴廷全;杜虎;王瑞;钟玉娟;杨晓珊.黄瓜光合系统II析氧增强蛋白CsPSII-OEEP在抗瓜类疫病中的应用, ZL202110966524.6;
20.徐晓美;吴廷全;李颖;王瑞;金庆敏.一种鉴定辣椒对疫病抗性的方法和应用, ZL202110465869.3;
21.杜虎;吴廷全;王瑞;徐晓美;阿奎尔·艾哈迈德;金庆敏. CsPL1单克隆抗体及其应用, ZL202110258583.8;
22.王瑞;吴廷全;杜虎;徐晓美;金庆敏;杨晓珊.黄瓜6-磷酸葡萄糖酸内酯酶CsPmR1在抗瓜类疫病中的应用, ZL202010965943.3;
23.杜虎;吴廷全;王瑞;徐晓美;金庆敏;杨晓珊.黄瓜韧皮部凝集素CsPL1在抗瓜类疫病中的应用, ZL202010967021.6;
24.王瑞;吴廷全;林毓娥;金庆敏;姚春鹏;梁肇均;何晓明;徐晓美;杨晓珊.与黄瓜抗疫病性状紧密连锁的SNP分子标记及其应用, ZL201810086874.1;
25.钟玉娟;吴廷全;黄河勋;李玉丹;王瑞;罗少波;何晓明;孙保娟;徐晓美;金庆敏.一种南瓜果实肌醇类和单、双糖类物质的同时检测方法, ZL201410665850.3;
26.黄河勋;吴廷全;王瑞;黄智文;林毓娥;梁肇均.用于中国南瓜‘广蜜1号’杂交种子纯度鉴定的引物及方法, ZL201310003063.8;
27.曹海顺;张长远;吴廷全;史亮亮.一种不依赖高湿愈合的低碳轻简化贴接式嫁接方法, ZL202210089711.5;
28.谭德龙;张长远;吴廷全;骆浩文;王瑞;郭金菊;曹海顺;王茹芳.一种手摇式丸粒化种子撒播器, ZL202220216238.8;
29.谭德龙;骆浩文;吴廷全;张长远;郭金菊;史亮亮;王瑞;曹海顺;王茹芳.一种快速疏水基质栽培槽, ZL202220199647.1;
30.郭金菊;张长远;吴廷全;谭德龙;王茹芳;曹海顺;王瑞.用于调控果蔬果实成熟的苦瓜转录因子及其应用, ZL202210029975.1;
31.杜虎;尹艳;吴廷全;王瑞;和婷婷;姚春鹏.一种多基因载体系统及其应用, ZL202210018333.1;
32.钟玉娟;黄河勋;吴廷全;王瑞;罗少波;谢大森.一种外源基因在南瓜果实中的瞬时表达方法, ZL201611129641.2;
33.林毓娥;王瑞;吴廷全;梁肇均;黄河勋;田永红.用于黄瓜‘粤秀3号’杂交种子纯度鉴定的引物及方法, ZL201310234013.0;
34.王茹芳;郭金菊;张长远;吴廷全;谭德龙;王瑞;曹海顺;王云龙;袁余.用于提升番茄果实硬度的基因及其应用, ZL202411492706.4;
35.王茹芳;郭金菊;张长远;吴廷全;谭德龙;王瑞;曹海顺.用于提升番茄果实硬度的Solyc02g161260基因及其应用, ZL202411492702.6;
36.袁余;谢玉明;伍纲;吴廷全.一种基于立体栽培与光电收集相结合的培育系统及方法, ZL202411402825.6;
37.谭德龙;王茹芳;张长远;吴廷全;曹海顺;骆浩文;郭金菊;王瑞;王云龙.一种南瓜种植栽培用便于安装的棚架, ZL202221883416.9;
38.郭金菊;张长远;韩鑫;吴廷全;王瑞;谭德龙.与苦瓜全雌性状紧密连锁的SNP分子标记及其应用, ZL202210757008.7;
39.骆浩文;谭德龙;曹海顺;吴廷全;王瑞;王茹芳;郭金菊.一种天台绿化植物层及绿化装置, ZL202220848136.8;
40.姚春鹏;张长远;张晓爱;吴廷全;金庆敏;李海达;王瑞娟.苦瓜长绿2号杂交种子纯度鉴定特异性标记及方法, ZL201810530683.X;
41.姚春鹏;张长远;张晓爱;吴廷全;金庆敏;王瑞娟;李海达.一种瓜类白粉病菌的保存与繁殖方法. ZL201810531675.7;
42.钟玉娟;黄河勋;李俊星;吴廷全;周洋洋.用于辅助判断南瓜首雌节位和首雄节位的dCAPS引物对及其应用, ZL201810523834.9;
43.钟玉娟;黄河勋;罗少波;吴廷全;李俊星.与南瓜皮色基因连锁的SNP分子标记及其应用, ZL201611178535.3;
44.徐晓美;巢娟;李颖;罗少波;吴廷全;黄智文.与辣椒根腐疫病特异抗性基因紧密连锁的分子标记及其应用, ZL201510134927.9;
45.袁余;张长远;罗毅智;齐海军;谢玉明;吴廷全.一种水产养殖设备, ZL202310749777.7;
46.钟玉娟;黄河勋;李俊星;罗文龙;谢大森;吴廷全;王瑞.与南瓜光周期不敏感性状紧密连锁的indel分子标记及其应用, ZL201711432898.X;
47.袁余;罗毅智;齐海军;李斌;周星星;谢玉明;吴廷全.一种鱼菜共生种植系统以及种植方法, ZL202411438370.3.
选育品种:
1)‘粤盛3号苦瓜’(粤评菜20250020)(排名第3);
2)‘粤宝玉苦瓜’(粤评菜20240017)(排名第4);
3)‘粤盛1号苦瓜’(粤评菜20240018)(排名第4);
4)‘粤盛2号苦瓜’(粤评菜20240019)(排名第3);
5)‘力丰黄瓜’(GPD黄瓜(2020)440118)(排名第4);
6)‘粤丰黄瓜’(粤审菜20170001)(排名第5);
7)‘香蜜小南瓜’(粤审菜2014014)(排名第5);
8)‘力丰2号黄瓜’(GPD黄瓜(2020)440032)(排名第6);
9)‘丹红3号南瓜’(粤审菜2013009)(排名第6);
10)‘广密1号南瓜’(粤审菜2013010)(排名第6);
11)‘粤盛4号苦瓜’(粤评菜20250021)(排名第6);
12)‘早青8号黄瓜’(GPD黄瓜(2020)440299)(排名第8);
13)‘力丰3号黄瓜’(GPD黄瓜(2020)440300)(排名第8);
14)‘粤青1号黄瓜’(粤审菜2013007)(排名第11);
获奖情况:
1、“广东蜜本型南瓜新品种的选育及产业化”(2021年广东省科技进步二等奖)(排名第五)(粤府证【2022】0997号,项目编号:J011-2-R05);
2. “贝贝南瓜标准化种植和储藏技术示范推广” (2023年广东省农业技术推广二等奖)(排名10)(证书号:2023-2-Z18-R10)。
