更新日期:2025年9月17日
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姓 名
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秦永华
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性 别
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男
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出生年月
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1976年2月
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籍贯
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河南省邓州市
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民 族
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汉族
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政治面貌
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中共党员
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最后学历
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博士研究生
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最后学位
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农业博士
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技术职称
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教授
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导师类别
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博、硕导
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行政职务
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系主任
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Email
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qiny@scau.edu.cn
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工作单位
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园艺学院
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邮政编码
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510642
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通讯地址
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广东广州市
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单位电话
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020-85287296
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个人主页
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个人简介
秦永华,男,博士,教授,博士生导师,广东省优稀水果产业技术体系栽培生理岗岗位专家。主要从事黄皮、火龙果、柑桔新品种选育及其配套栽培技术、分子生物学等方面的研究。近年来主持国家自然科学基金、广东省自然科学基金、教育部博士点新教师基金、广东省科技攻关、广东省农业厅、广州市科技计划等项目10余项,以通讯作者或第一作者在Biotechnology Advances、Journal of Integrative Plant Biology、Journal of Agricultural and Food Chemistry、Horticultural Plant Journal、Horticulture Research、Molecular Breeding、Plant Science、Frontier in Plant Science、Physiologia Plantarum、BMC Plant Biology和Scientia Horticulturae等国际期刊上发表SCI论文60余篇,获授权发明专利2项,主编书籍2本,制订国家级农业行业标准1项,获得省级审定果树新品种14个,获得中华农业科技奖(科普奖)、广东省科技进步三等奖和广东省农业推广奖三等奖各1项。
工作经历
2008.7-现在 华南农业大学 果树学 工作
2013.10-2014.10 康奈尔大学 分子生物学 访问学者
2005.7-2008.7 清华大学 分子生物学 博士后
教育经历
1995.9-1999.7 河南农业大学 林学 学士
1999.9-2002.7 河南农业大学 果树学 硕士
2002.9-2005.7 浙江大学 果树学 博士
获奖、荣誉称号
2011-2012年年度考核“优秀”。
2012-2013年年度考核“优秀”。
2012-2013年度:华南农业大学园艺学院“优秀共产党员”。
2012-2013年度:华南农业大学“优秀共产党员”。
社会、学会及学术兼职
1)园艺学院科研秘书(2011-2013) 。
2)“广东省普通高校华南园艺作物种质创新与利用”重点实验室秘书(2011-2013)。
3)“农业部华南地区园艺作物生物学与种质创制”重点实验室秘书(2011-2013)。
4)园艺生物技术与植保教研室主任(2015-2019)。
5)“国家瓜果改良中心荔枝分中心”重点实验室副主任(2012-) 。
6)《J Berry》编委,《Plant Physiol》、《Plant Sci 》、《Sci Hortic》、《 园艺学报》、《中国农业科学》、《 果树学报》等学术刊物审稿人。
研究领域
1)柑桔、火龙果、荔枝等果树新品种的选育和遗传改良;
2)无籽沙糖桔自交不亲和相关基因的克隆和功能验证;
3)火龙果甜菜素生物合成和调控的分子机理。
科研项目
1)广州市科技计划:F-box基因在无籽沙糖桔自交不亲和反应中的功能解析(201607010314),2016.4.1–2018.3.31,主持。
2)广东省科技攻关:火龙果优质抗病新品种选育与示范推广(2014B020202010),2015.1–2018.12,主持。
3)农业部:量天尺属(火龙果)新品种DUS测试指南研制,2015.11–2018.6,主持。
4)2014年中央财政农业技术推广项目:无籽沙糖桔低成本高效益新技术的推广应用(粤财农[2014]474号),2015.1–2016.12,主持。
5)广东省自然科学基金(自由申请项目):无籽沙糖桔自交不亲和花粉特异SFB基因的功能验证(S2013010011950),2013.10–2015.10,主持。
6)广东省教育厅高等院校学科与专业建设专项资金:无籽沙糖桔自交不亲和泛素代谢途径关键酶基因的筛选和功解析(2013KJCX0031),2014.1–2015.12,主持。
7)无籽沙糖桔自交不亲和相关基因的克隆及表达特性分析(31000899),国家自然科学基金,2011.1–2013.12,主持。
8)广东省农业科技攻关项目:晚熟无籽沙糖桔新品种选育研究(2010B020305007),2011.1–2013.12,主持。
9)教育部高等学校博士学科点专项科研基金(新教师类):无籽沙糖桔自交不亲和相关基因的克隆及表达特性分析(20104404120015),2011.1–2013.12,主持。
10)广东省农业科技攻关项目:无籽贡柑新品种选育研究(2012B020317004),2012.1–2014.12,主持。
发表论文
1.Li ZQ, Liu JW, Sabir IA*, Qin YH*. Advances in molecular mechanisms of genetic mutations underlying chlorophyll deficiency in plants. Plant Science, 2026, 362: 112751
2. Shah K, Qin YH*. Seed-borne bacterial infections: From infection mechanisms to sustainable control strategies. Physiological and Molecular Plant Pathology, 2025, 139: 102858.
3. Chen JX, Li FP, Liu J, Mao YC, Gan Z, Hu H, Sabir IA, Khan I, Chen JY, Chen, CB, Zhang ZK, Zhao JT, Hu GB, Qin YH*. Gap-free genome and efficient transcript purification system reveals the genomes diversity and chlorophyll degradation mechanism in pitaya. Journal of Integrative Plant Biology, 2025, 67: 1771-1786.
4. Peng SJ, Zhu XY, Chen JX, Chen JY, Hu XL, Wu JL, Zhang ZK, Zhao JT, Hu GB, Sabir IA*, Qin YH*. Integrated analyses of the transcriptome and metabolome revealed the coloring mechanism of red-pericarp wampee (Clausena lansium). Plant Physiology and Biochemistry, 2025, 24, 109959.
5. Luo RZ, Zhang R, Chen JX, Peng SJ, Irfan Ali Sabir, Li ZQ, Wu LF, Hu GB, Shah K*, Qin YH*. Transcription factors HmeWRKY33 and HmeWRKY51 regulate the susceptibility of pitaya to canker disease. Plant Disease, 2025, 1. https://doi.org/10.1094/PDIS-08-24-1589-RE
6. Sabir IA, Hu X., Khan I. and Qin Y. Regulatory mechanisms of bud dormancy: environmental, hormonal, and genetic perspectives. International Journal of Molecular Sciences, 2025, 26(6): 2517.
7. Sabir IA, Manzoor MA, Khan I, Hu XL, Chen JX, Qin YH*. Emerging trends in secondary metabolite research in Caryophyllales: betalains and their roles in plant adaptation and defense mechanisms. Journal of Agricultural and Food Chemistry, 2025, 73(4): 2249-2265.
8. Shah K, Zhu XY, Zhan TT, Chen JY, Chen JX, Qin YH*. Gibberellin-3 induced dormancy and suppression of flower bud formation in pitaya (Hylocereus polyrhizus). BMC Plant Biology, 2025, 25: 47.
9. Shah K, Zhu XY, Zhang TT, Chen JY, Chen JX, Qin YH*. Transcriptome analysis reveals sugar and hormone signaling pathways mediating flower induction in pitaya (Hylocereus polyrhizus). International Journal of Molecular Sciences, 2025, 26, 1250.
10. Pu XY, Khan I, Zhang TT, Huang GH, Chen JY, Ding Y, Ji XW, Zhang ZK, Zhao JT, Hu GB, Qin YH*. Genetic analyses of flower, fruit, and stem traits of intergeneric hybrids between ‘Honghuagqinglong’ and ‘Heilong’ pitayas. Plants, 2024, 13, 3546.
11. Qin YH. Advances in molecular research of tropical fruit. International Journal of Molecular Sciences, 2024, 25, 13582.
12. Kamran Shah, Zhu XY, Zhan TT, Chen JY, Chen JX, Qin YH*. The poetry of nitrogen and carbon metabolic shifts: The role of C/N in pitaya phase change. Plant Science, 2024, 348, 112240.
13. Zhang TT, Xing KM, Chen JY, Irfan Ali Sabir, Shah K, Chen JX, Zhang ZK, Zhao JT, Hu GB, Qin YH*. Genetic analyses of flower main traits from two pitayas and their progenies: A cactus plant. Plants, 2024, 13, 699.
14. Xie FF, Shah K, Chen CB, Sabir IA, Chen JY, Chen JX, Chen JY, Qin YH*. Unraveling betalain suppression in pitaya: insights from co-activator HuMYB9 binding at HuCYP76AD1-1, HuADH1, and HuDODA1 super-enhancers. Food Quality and Safety, 2024, 8, fyae016.
15. Zhang ZK, Yang HH, Xing YM, Xie FF, Chen CB, Zhang ZC, Zhao JT, Hu GB, Qin YH*. Quality analysis and evaluation of different batches of pitaya fruit (Hylocereus) in South China. International Journal of Fruit Science, 2024, 24(1): 33-43.
16. Peng SJ, Sabir IA, Hu XL, Chen JY, Qin YH*. Advancements in reference gene selection for fruit trees: A comprehensive review. International Journal of Molecular Sciences, 2024, 25, 1142.
17. Sabir IA, Manzoor MA, Shah IH, Shah K, Ahmed W, Hu XL, Chen JX, Chen JY, Qin YH*. Melatonin's chromatic magic: Examining its role in orchestrating pigment biosynthesis in horticultural crops. Scientia Horticulturae, 2024, 323, 112482.
18. Shah K, Chen JY, Chen JX, Qin YH*. Pitaya nutrition, biology, and biotechnology: A review. International Journal of Molecular Sciences, 2023, 24, 13986.
19. Jiang R, Wu LF, Zeng JM, Shah K, Zhang R, Hu GB, Qin YH*, Zhang ZK*. Identification of HuSWEET family in pitaya (Hylocereus undatus) and key roles of HuSWEET12a and HuSWEET13d in sugar accumulation. International Journal of Molecular Sciences, 2023, 24, 12882.
20. Zeng JM, Chen JY, Shah K, Xie FF, Chen CB, Chen JX, Zhao JT, Hu GB, Zhang ZK, Qin YH*. Identification of HuSPL family and key role of HuSPL12 in regulation of betalain biosynthesis in pitaya. Physiologia Plantarum, 2023, 175(3), e13923.
21. Chen JX, Irfan Ali Sabir, Qin YH*. From challenges to opportunities: Unveiling the secrets of pitaya through omics studies. Scientia Horticulturae, 2023, 321, 112357
22. Chen JY, Xie FF, Shah K, Chen CB, Zeng JM, Chen JX, Zhang ZK, Zhao JT, Hu GB, Qin YH*. Identification of HubHLH family and key role of HubHLH159 in betalain biosynthesis by activating the transcription of HuADH1, HuCYP76AD1-1, and HuDODA1 in pitaya. Plant Science, 2023, 328: 111595.
23. Xie FF, Chen CB, Chen JY, Chen JX, Hua QZ, Shah K, Zhang ZK, Zhao JT, Hu GB, Chen JY*, Qin YH*. Betalain biosynthesis in red pulp pitaya is regulated via HuMYB132: a R-R type MYB transcription factor. BMC Plant Biology, 2023, 23: 28.
24. Chen CB, Xie FF, Shah K, Hua QZ, Chen JX, Zhang ZK, Zhao JT, Hu GB, Qin YH*. Genome-wide identification of WRKY gene family in pitaya reveals the involvement of HmoWRKY42 in betalain biosynthesis. International Journal of Molecular Sciences, 2022, 23, 10568.
25. Chen CB#, Li FP#, Xie FF, Chen JX, Hua QZ, Chen JY, Wu, ZJ, Zhang ZK, Zhang R, Zhao JT, Hu GB, Chen JY, Qin YH*. Pitaya Genome and Multiomics Database (PGMD): a comprehensive and integrative resource of Selenicereus undatus. Genes, 2022, 13, 745.
26. Xie FF, Chen CB, Chen JX, Yuan YJ, Hua QZ, Zhang ZK, Zhao JT, Hu GB, Chen JY, Qin YH*. Metabolic profiling of sugars and organic acids, and expression analyses of metabolism-associated genes in two yellow-peel pitaya species. Plants, 2022, 11, 694.
27.Hu XL, Xie FF, Liang, WW, Liang YH, Zhang ZK, Zhao JT, Hu GB, Qin YH*. HuNAC20 and HuNAC25, two novel NAC genes from pitaya, confer cold tolerance in transgenic Arabidopsis. International Journal of Molecular Sciences, 2022, 23, 2189.
28.Chen JX#, Yuan YJ#, Xie FF, Zhang ZK, Chen JY, Zhang R, Zhao JT, Hu GB, Qin YH*. Metabolic profiling of organic acids reveals the involvement of HuIPMS2 in citramalic acid synthesis in pitaya. Horticulturae, 2022, 8, 167.
29.Zhang ZK#, Xing YM#, Ramakrishnan M, Chen CB, Xie FF, Hua QZ, Chen JY, Rong Zhang, Zhao JT, Hu GB, Qin YH*. Transcriptomics-based identification and characterization of genes related to sugar metabolism in ‘Hongshuijing’ pitaya. Horticultural Plant Journal, 2022, 8(4): 450–460.
30.Hua QZ, Chen CB, Xie FF, Zhang ZK, Zhang R, Zhao JT, Hu GB, Qin YH*. A genome-wide identification study reveals that HmoCYP76AD1, HmoDODAα1 and HmocDOPA5GT involved in betalain biosynthesis in Hylocereus. Genes, 2021, 12, 1858.
31.Wu ZJ, Deng HY, Liang GD, Ye XY, Qin YH*, Huang LF*. Construction of a high-density genetic map for pitaya using the whole genome resequencing approach. Horticulturae, 2021, 7, 534.
32.Xie FF, Hua QZ, Chen CB, Zhang ZK, Zhang R, Zhao JT, Hu GB, Chen JY*, Qin YH*. Genome-wide characterization of R2R3-MYB transcription factors in pitaya reveals a R2R3-MYB repressor HuMYB1 involved in fruit ripening through regulation of betalain biosynthesis by repressing betalain biosynthesis-related genes. Cells, 2021, 10(8): 1949.
33.Ye XY, Gao YS, Chen CB, Xie FF, Hua QZ, Zhang ZK, Zhang R, Zhao JT, Hu GB, Qin YH*. Genome-wide identification of aquaporin gene family in pitaya reveals an HuNIP6;1 involved in flowering process. International Journal of Molecular Sciences, 2021, 22(14): 7689.
34.Chen JY#, Xie FF#, Cui YZ#, Chen CB, Lu WJ, Hu XD, Hua QZ, Zhao J, Wu ZJ, Gao D, Zhang ZK, Jiang WK, Sun QM*, Hu GB*, Qin YH*. A chromosome-scale genome sequence of pitaya (Hylocereus undatus) provides novel insights into the genome evolution and regulation of betalain biosynthesis. Horticulture Research, 2021, 8: 154.
35.Zhang LL#, Chen CB#, Xie FF, Hua QZ, Zhang ZK, Zhang R, Chen JY, Zhao JT, Hu GB, Qin YH*. A novel WRKY transcription factor HmoWRKY40 associated with betalain biosynthesis in pitaya (Hylocereus monacanthus) through regulating HmoCYP76AD1. International Journal of Molecular Sciences, 2021, 22(4): 2171.
36.Chen CB, Xie FF, Hua QZ, Noemi Tel Zur, Zhang LL, Zhang ZK, Zhang R, Zhao JT, Hu GB, Qin YH*. Integrated sRNAome and RNA-Seq analysis reveals miRNA effects on betalain biosynthesis in pitaya. BMC Plant Biology, 2020, 20: 437
37.Xie FF, Hua QZ, Chen CB, Zhang LL, Zhang ZK, Chen JY, Zhang R, Zhao JS, Hu GB, Zhao JT, Qin YH*. Transcriptomics-based identification and characterization of glucosyltransferases involved in betalain biosynthesis in Hylocereus megalanthus. Plant Physiology and Biochemistry, 2020, 152: 112–124.
38.Ren Y, Hua QZ, Pan JY, Zhang ZK, Zhao JT, He XH, Qina YH*, Hu GB*. SKP1-like protein, CrSKP1-e, interacts with pollen-specific F-box proteins and assembles into SCF-type E3 complex in ‘Wuzishatangju’ (Citrus reticulata Blanco) pollen. PeerJ, 2020, 8: e10578.
39.Ren Y, Pan JY, Zhang ZK, Zhao JT, He XH, Qina YH*, Hu GB*. Identification of an up-accumulated polyamine oxidase 2 in pollen of self-incompatible ‘Wuzishatangju’ mandarin using comparative proteomic analysis. Scientia Horticulturae, 2020, 266: 109279
40.Chen CB, Wu JY, Hua QZ, Noemi Tel-Zur, Xie FF, Zhang ZK, Chen JY, Zhang R, Hu GB, Zhao JT, Qin YH*. Identification of reliable reference genes for quantitative real-time PCR normalization in pitaya. Plant Methods, 2019, 15: 70.
41.Wei W, Cheng MV, Ba LJ, Zeng RX, Luo DL, Qin YH, Liu ZL, Kuang JF, Lu WJ, Chen JY, Su XG*, Shan W*. Pitaya HpWRKY3 is associated with fruit sugar accumulation by transcriptionally modulating sucrose metabolic genes HpINV2 and HpSuSy. International Journal of Molecular Sciences, 2019, 20: 1890.
42.Hua QZ, Chen CB, Noemi Tel-Zur, Wang HC, Wu JY, Chen JY, Zhang ZK, Zhao JT, Hu GB, Qin YH*. Metabolomic characterization of pitaya fruit from three red-skinned cultivars with different pulp colors. Plant Physiology and Biochemistry, 2018, 126: 117–125.
43.Chen CB, Wu PY, Xie FF, Sun LY, Xing YM, Hua QZ, Zhang ZK, Chen JY, Zhao JT, Hu GB, Qin YH*. Breeding of ‘Hongguan No. 1’ and ‘Shuangse No. 1’ pitayas with superior quality. HortScience, 2018, 53(3): 404–409.
44.Wang L, Hua QZ, Ma YW, Hu GB, QinYH*. Comparative transcriptome analyses of a late-maturing mandarin mutant and its original cultivar reveals gene expression profiling associated with citrus fruit maturation. PeerJ, 2017, 5:e3343.
45.Cheng MN, Huang ZJ, Hua QZ, Shan W, Kuang JF, Lu WJ, Qin YH*, Chen JY*. The WRKY transcription factor HpWRKY44 regulates CytP450-like1 expression in red pitaya fruit (Hylocereus polyrhizus). Horticulture Research, 2017, 4: 17039.
46.Ma YW, Li QL, Hu GB, Qin YH*. Comparative transcriptional survey between self-incompatibility and self-compatibility in Citrus reticulata Blanco. Gene, 2017, 609: 52–61.
47.Hua QZ, Zhou QJ, Gan SS, Wu JY, Chen CB, Li JQ, Ye YX, Zhao JT, Hu GB*, Qin YH*. Proteomic analysis of Hylocereus polyrhizus reveals metabolic pathway changes. Int. J. Mol. Sci., 2016, 17: 1606
48.Miao HX, Ye ZX, Hu GB*, Qin YH*. Comparative transcript profiling of gene expression between self-incompatibility and self-compatibility mandarin by suppression subtractive hybridization and cDNA microarray. Molecular Breeding, 2015, 35: 47
出版专著和教材
秦永华,张荣,胡桂兵,陈建业,张志珂,刘成明。火龙果安全高效生产技术图说。广东科技出版社,2019年。 秦永华,胡桂兵主编。园艺植物生物技术实验指导,普通高等教育农业部‘十二五’规划教材/全国高等农林院校‘十二五’规划教材。中国农业出版社,2016年8月。
科研创新
1)获得的奖励
(1) 中华农业科技奖(科普奖,等同于科研成果二等奖):无籽沙糖桔低成本高效益栽培新技术图说(KP2013-R-006-03),第3完成人。
(2)广东省科技进步三等奖:无籽沙糖桔低成本高效益新技术研究、集成与示范推广(B01-1-3-10),第3完成人。
(3)广东省农业技术推广奖三等奖:无籽沙糖桔低成本高效益栽培新技术推广应用(2012663),第3完成人。
2)通过审定的果树品种
(1)火龙果:粉红1号(粤评果20210005)、红冠2号(粤评果20210006)、双色1号火龙果(粤审果20170005)、红冠1号火龙果(粤审果20170004)、莞华红粉火龙果(粤审果2015012)、莞华红火龙果(粤审果2015004)和莞华白火龙果(粤审果2016001)。
(2)柑桔:华橙1号(粤审果2012009)、强德勒柚(粤审果2013005)、华晚无籽沙糖橘(粤审果2013002)和华蜜无核贡柑(粤审果2013007)
教学活动
1)本科生课程:《园艺植物生物技术》和《园艺植物育种学》。
2)研究生课程:《园艺植物生物技术》、《高级园艺植物遗传育种》和《园艺科学研究进展》。
指导学生情况
作为第一导师,指导培养博士、硕士研究生20名,已毕业研究生28名。
我的团队
老师:胡桂兵、张志珂、张荣;在校博士后:陈家璇、Irfan ali和Imran Khan;在校博士:胡兴隆、陈嘉怡、彭淑君、付友鹏。