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作物生物技术系
付志远,女,博士,教授,博士生导师,河南省杰出青年。
研究领域:玉米遗传育种与分子生物学
研究方向:玉米籽粒产量与品质性状形成的遗传机理解析及新品种选育
E-mail: fuzhiyuan2004@163.com;fuzhiyuan@henau.edu.cn

教育与研究/工作经历
2022.01-至今 英国上市公司官网365 教授、博士生导师
2018.09-2019.09 美国弗罗里达大学 访学学者
2012.11–2022.01 英国上市公司官网365 副教授、硕士生导师
2010.09-2013.09 鹤壁市农业科学院挂职副院长(河南省博士服务团)2009.08-2012.11 英国上市公司官网365 讲师
2005.09-2009.06 中国农业大学 作物遗传育种 博士
2002.09-2005.06 英国上市公司官网365 作物遗传育种 硕士
1998.09-2002.06 英国上市公司官网365 农学 学士

承担项目与课题
  1. 国家自然科学基金(面上,32372091),RNA外切体调控玉米籽粒发育的分子机制,2024/01-2027/12,在研,主持。
  2. 国家自然科学基金(面上,31971893),线粒体嵌合基因atp6c调控玉米C型细胞质雄性不育的分子机理研究,2020/01-2023/12,结题,主持
  3. 国家自然科学基金(河南省联合基金,U2004144),ZmTFCB与ZmSPR1协同调控玉米微管动态和胚乳发育的分子机制,2021/01-2023/12,结题,主持
  4. 河南省杰出青年基金项目,RNA降解基因调控玉米籽粒发育的分子机制与利用途径解析,2024/01-2026/12,在研,主持。
  5. 国家自然科学基金(青年,31000715),玉米种子萌发相关基因cupin的克隆及关联分析,2011/01-2013/12,结题,主持
  6. 国家重点研发计划“农业生物重要性状形成与环境适应性”专项“玉米高产优质性状形成的分子调控网络及其协同改良机制(2021YFF1000302)”子课题,2021/12-2026/11,在研,主持
  7. 国家重点研发计划“七大农作物育种”重点专项“小麦等作物功能基因组研究与应用(2016YFD0101003)”子课题,2016/07-2021/08,结题,主持
  8. 中国博士后科学基金第四十八批面上资助(20100470993),玉米籽粒胚乳突变体基因的精细定位及克隆,2010-2013,结题,主持
  9. 英国上市公司官网365-甘肃省玉米种业研究院有限公司,玉米新品种科技合作协议,2023/1-2027/12,在研,主持
  10. 河南省科技攻关(212102110061),抗玉米叶片早衰基因ZmELS2的功能标记开发与优异种质鉴定,2021/01-2022/12,结题,主持
  11. 河南省高端外国专家引进计划,适宜河南省耕作制度的玉米种资改良与新品种选育,2022-2023,结题,主持
  12. 河南省三区人才项目,玉米品种示范推广与技术服务(伟一种业),2022-2023,结题,主持
  13. 河南省自然科学基金(2010A210019),玉米种子萌发相关基因cupin克隆及关联研究,2010-2011,结题,主持
  14. 重点实验室课题(SKL2015ZH-01),玉米籽粒发育与灌浆关键基因的克隆与代谢调控网络分析,2015-2020,结题,主持
  15. 重点实验室课题(SKL2014ZH-09),玉米胚乳淀粉粒大小候选基因ZmCBP的功能与利用途径解析”,2014-2018,结题,主持
  16. 英国上市公司官网365科技创新基金(202023CXZX002),ZmRRP45与ZmRRP41协同调控玉米籽粒发育的分子机制解析,2024/01-2025/12,在研,主持
  17. 英国上市公司官网365教改项目,实验、实践和竞赛三合一教学模式构建与应用型人才的培养,2021,结题,主持
  18. 英国上市公司官网365教改项目,新农科建设背景下遗传学课程思政教学思考,2024,在研,主持
  19. 科学部综合研究项目(青年育种家专项,32341029),玉米野生种高光效优异基因资源的发掘和育种应用,2024/1-2028/12,在研,第二。
  20. 国家自然科学基金基金(青年,31000714)非编码RNA对玉米穗行数性状的调节作用研究,2011/01-2013/12,结题,第二。
  21. 国家自然基金项目(面上,31471504),玉米CMS-C核恢复基因Rf4的克隆及育性恢复机理的解析,2015/01-2018/12,结题,第三。
  22. 国家自然基金(面上,31271732),玉米穗粗杂种优势位点的鉴定与候选基因克隆,2013/01-2016/12,结题,第三。
  23. 河南省科技研发计划联合基金重点项目(232301420023),玉米高温响应基因的挖掘及其有利等位基因资源的利用,2023/6-2025/5,在研,第二。
  24. 河南省科技攻关,玉米穗行数主效QTL的精细定位及候选基因功能研究,2021,结题,第二。
  25. 河南省中原学者计划(172101510004),玉米籽粒发育和灌浆过程的分子机理研究,2019,结题,第三。
  26. 河南省科技攻关(152102110062),高产宜机收玉米新品种选育,2018,结题,第三。
  27. 英国上市公司官网365教改项目“基于OBE理念的新农科卓越拔尖本科生《遗传学》课程改革与建设”,2021,结题,第三。
  28. 中国学位与研究生教育学会“新农科”创新型研究生培养的模块化体系建设,2021,结题,第二。
  29. 国家重点基础研究发展计划(2014CB138200),玉米产量和品质性状全基因组选择育种的基础研究,2014-2018,结题,参与。
  30. 国家973项目“玉米产量相关性状的遗传机理剖析与优异种质创制”,2012CB723001,2012-2016,结题,参与。
  31. “十二五”农村领域国家科技计划“玉米产量相关基因克隆和功能研究”,2012AA10A300,2012-2016,结题,参与。
论文、论著和专利
1、论文(第一,*通讯
  1. Canran Sun, Yang Liu, Guofang Li, Yanle Chen, Mengyuan Li, Ruihua Yang, Yongtian Qin, Yongqiang Chen, Jinpeng Cheng, Jihua Tang*, Zhiyuan Fu*. ZmCYP90D1 regulates maize internode development by modulating brassinosteroid-mediated cell division and growth. The Crop Journal, 2023, online, doi: https://doi.org/10.1016/j.cj.2023.11.002
  2. Hui Zhang, Yijian Feng, Kunyang Song, Guofang Li, Jiao Jin, Jingjing Gao, Yongtian Qin, Hongqiu Wang, Jinpeng Cheng, Zonghua Liu, Jihua Tang*, Zhiyuan Fu*. A peptide chain release factor 2a gene regulates maize kernel development by modulating mitochondrial function. The Crop Journal, 2023, 11(6): 1731-1741.
  3. Tian R, Jiang J, Bo S, Zhang H, Zhang X, Hearne SJ, Tang J, Ding D*, Fu Z*. Multi-omic characterization of the maize GPI synthesis mutant gwt1 with defects in kernel development. BMC Plant Biology, 2023, 23(1): 191.
  4. Zhou Q, Fu Z*※, Li M, Shen Q, Sun C, Feng Y, Liu Y, Jiang J, Qin T, Mao T, Hearne SJ, Wang G*, Tang J*. Maize tubulin folding cofactor B is required for cell division and cell growth through modulating microtubule homeostasis. New Phytol, 2023, 239(5): 1707-1722.
  5. Qingqian Zhou, Zhiyuan Fu*※, Haijun Liu, Jingen Wang, Zhanyong Guo, Xuehai Zhang, Runmiao Tian, Yang Liu, Jianzhou Qu, Weihua Li, Jianbing Yan*, Jihua Tang*. Mining Novel Kernel Size Related Genes by pQTL Mapping and Multi-Omics Integrative Analysis in Developing Maize Kernels. Plant Biotechnol J, 2021, 19(8):1489-1491
  6. Yongqiang Chen, Zhiyuan Fu※*, Hui Zhang, Runmiao Tian, Huili Yang, Canran Sun, Lulin Wang, Wen Zhang, Zhanyong Guo, Xuehai Zhang, Jihua Tang*. Cytosolic malate dehydrogenase 4 modulates cellular energetics and storage reserve accumulation in maize endosperm. Plant Biotechnol J, 2020,18(12): 2420-2435.
  7. Yongqiang Chen, Qingqian Zhou, Runmiao Tian, Zhihui Ma, Xiaofeng Zhao, Jihua Tang, Zhiyuan Fu*. Proteomic analysis reveals that auxin homeostasis influences the eighth internode length heterosis in maize (Zea mays). Scientific Reports, 2018, 8(1): 7159.
  8. Zhihui Ma, Yongqiang Chen, Canran Sun, Jiao Jin, Zhanyong Guo, Zhiyuan Fu*. Proteomic Analysis Demonstrates That Elongation of Below-Ear Internodes in Maize is Related to Three Different Hormones. Journal of Plant Growth Regulation, 2018, 37(1): 144-155.
  9. Zhiyuan Fu, Zhan Zhao, Yongtian Qin, Mengmeng Xu, Yongqiang Chen, Jihua Tang. Functional Marker Related to Germination Vigor of Maize Seed. Molecular Breeding, 2016, 36(12):159.
  10. Zhihui Ma, Yongtian Qin, Yafei Wang, Xiaofeng Zhao, Fangfang Zhang, Jihua Tang, Zhiyuan Fu*. Proteomic Analysis of Silk Viability in Maize Inbred Lines and Their Corresponding Hybrids. PLoS ONE, 2015, 10(12): e0144050.
  11. Xining Jin, Zhiyuan Fu, Panqing Lv, Qian Peng, Dong Ding, Weihua Li, Jihua Tang*. Identification and Characterization of microRNAs during Maize Grain Filling. Plos ONE, 2015, 10(5): e0125800.
  12. Xining Jin, Zhiyuan Fu, Dong Ding, Weihua Li, Zonghua Liu, Yanmin Hu, Jihua Tang. Proteomic analysis of plumules and coleoptiles in maize between hybrids and their corresponding inbred lines. Acta Physiologiae Plantarum, 2014, 36: 355-370.
  13. Xining Jin, Zhiyuan Fu, Dong Ding, Weihua Li, Zonghua Liu, Jihua Tang. Proteomic identification of genes associated with maize grain-filling rate. Plos ONE, 2013, 8(3): e59353.
  14. Zhiyuan Fu, Yuchao Chai, Yi Zhou, Xiaohong Yang, Marilyn L. Warburton, Shutu Xu, Ye Cai, Dalong Zhang, Jiansheng Li, Jianbing Yan. Natural variation in the sequence of PSY1 and frequency of favorable polymorphisms among tropical and temperate maize germplasm. Theoretical and Applied Genetics, 2013,126: 923-935.
  15. Zhiyuan Fu, Xining Jin, Dong Ding, Yongling Li, Zhongjun Fu, Jihua Tang. Proteomic analysis of heterosis during maize seed germination. Proteomics, 2011, 11: 1462-1472.
  16. Fu ZY, Yan JB, Zheng YP, Warburton ML, Crouch JH, Li JS. Nucleotide diversity and molecular evolution of the PSY1 gene in Zea mays compared to some other grass species. Theor Appl Genet, 2010, 120: 709-720.
  17. Yan JB, Kandianis CB, Harjes CE, Bai L, Kim EH, Yang XH, Skinner DJ, Fu ZY, Mitchell S, Li Q, Salas Fernandez MG, Zaharieva M, Babu R, Fu Y, Palacios N, Li JS, DellaPenna D, Brutnell T, Buckler ES, Warburon ML, Rocheford T*. Rare genetic variation at Zea mays crtRB1 increases β-carotene in maize grain. Nature Genetics, 2010, 42: 322-327.
  18. Wang Q, Wan J, Dang K, Meng S, Hu D, Lin Y, Qiu X, Guo Z, Fu Z, Ding D, Tang J*. zma-miR159 targets ZmMYB74 and ZmMYB138 transcription factors to regulate grain size and weight in maize. Plant Physiol, 2023,193(4): 2430-2441.
  19. Gao Y, Shi X, Chang Y, Li Y, Xiong X, Liu H, Li M, Li W, Zhang X, Fu Z, Xue Y, Tang J*. Mapping the gene of a maize leaf senescence mutant and understanding the senescence pathways by expression analysis. Plant Cell Rep, 2023, doi: 10.1007/s00299-023-03051-4.
  20. Yan P, Li W, Zhou E, Xing Y, Li B, Liu J, Zhang Z, Ding D, Fu Z, Xie H, Tang J*. Integrating BSA-Seq with RNA-Seq Reveals a Novel Fasciated Ear5 Mutant in Maize. Int J Mol Sci, 2023, 24(2): 1182.
  21. Yang H, Xue Y, Li B, Lin Y, Li H, Guo Z, Li W, Fu Z, Ding D, Tang J*. The chimeric gene atp6c confers cytoplasmic male sterility in maize by impairing the assembly of the mitochondrial ATP synthase complex. Mol Plant, 2022, 15(5): 872-886.
  22. Sun G, Zhang X, Duan H, Gao J, Li N, Su P, Xie H, Li W, Fu Z, Huang Y, & Tang J*. Dissection of the genetic architecture of peduncle vascular bundle-related traits in maize by a genome-wide association study. Plant Biotechnology Journal, 2022, 20(6): 1042-1053.
  23. Tian Q, Wang G, Ma X, Shen Q, Ding M, Yang X, Luo X, Li R, Wang Z, Wang X, Fu Z, Yang Q, Tang J*, Wang G. Riboflavin integrates cellular energetics and cell cycle to regulate maize seed development. Plant Biotechnol J, 2022, 20(8): 1487-1501.
  24. Duan H, Li J, Sun Y, Xiong X, Sun L, Li W, Gao J, Li N, Zhang J, Cui J, Fu Z, Zhang X*, Tang J*. Candidate loci for leaf angle in maize revealed by a combination of genome-wide association study and meta-analysis. Front Genet, 2022, 13: 1004211.
  25. Zhang X, Ma C, Wang X, Wu M, Shao J, Huang L, Yuan L, Fu Z, Li W, Zhang X, Guo Z, Tang J*. Global transcriptional profiling between inbred parents and hybrids provides comprehensive insights into ear-length heterosis of maize (Zea mays). BMC Plant Biol, 2021, 21(1): 118.
  26. Liu G, Yan P, Du Q, Wang Y, Guo Y, Fu Z, Wang H, Tang J*. Pre-rRNA processing and its response to temperature stress in maize. J Exp Bot, 2020, 71(4): 1363-1374.
  27. Yafei Wang, Wenwen Liu, Hongqiu Wang, Qinguo Du, Zhiyuan Fu, Wenxue Li*; Jihua Tang*. ZmEHD1 is required for kernel development and vegetative growth through regulating auxin homeostasis. Plant Physiology, 2020, 182: 1467-1480.
  28. Hongqiu Wang, Kai Wang, Qingguo Du, Yafei Wang, Zhiyuan Fu, Zhanyong Guo, Dingming Kang, Wen-Xue Li, Jihua Tang*. Maize Urb2 protein is required for kernel development and vegetative growth by affecting pre-ribosomal RNA processing. New Phytologist, 2018, 218(3): 1233-1246.
  29. Bin Wang, Yadong Xue, Zuxin Zhang, Dong Ding, Zhiyuan Fu, Jihua Tang*. Transcriptomic analysis of maize kernel row number-associated miRNAs between a single segment substitution line and its receptor parent. Plant Growth Regul, 2016, 78(2): 145-154.
  30. Xining Jin, Weihua Li, Desheng Hu, Xia Shi, Xiaoxiang Zhang, Fangfang Zhang, Zhiyuan Fu, Dong Ding, Zonghua Liu, Jihua Tang*. Biological Responses and Proteomic Changes in Maize Seedlings under Nitrogen Deficiency. Plant Molecular Biology Reporter, 2015, 33(3): 490-504.
  31. Peng Zhao, Dong Ding, Fangfang Zhang, Xiaofeng Zhao, Yadong Xue, Weihua Li, Zhiyuan Fu, Haochuan Li, Jihua Tang*. Investigating the molecular genetic basis of heterosis for internode expansion in maize by microRNA transcriptomic deep sequencing. Functional & Integrative Genomics, 2015, 15(3): 261-270.
  32. Zhanhui Zhang, Zonghua Liu, Yanmin Hu, Weihua Li, Zhiyuan Fu, Dong Ding, Haochuan Li, Mengmeng Qiao, Jihua Tang*. QTL Analysis of Kernel-Related Traits in Maize Using an Immortalized F2 Population. PLoS ONE, 2014, 9(2): e89645.
  33. Zhongjun Fu, Weihua Li, Qinbin Zhang, Long Wang, Xiaoxiang Zhang, Guiliang Song, Zhiyuan Fu, Dong Ding, Zonghua Liu, Jihua Tang*. Quantitative Trait Loci for Mercury Accumulation in Maize (Zea mays L.) Identified Using a RIL Population. PLoS ONE, 2014, 9(9): e107243.
  34. Dong Ding, Mingshui Han, Yinju Wang, Zhiyuan Fu, Weihua Li, Zonghua Liu, Yanmin Hu, Jihua Tang*. MicroRNA transcriptomic analysis of heterosis during maize seed germination. PlosONE, 2012, 7(6): e39578.
  35. Zhou Y, Han Y L, Fu Y, Fu Z Y, Xu S T, Li J S, Yan J B, Yang X H*. ZmcrtRB3 encodes a carotenoid hydroxylase that affects the accumulation of α-carotene in maize kernel. Journal of Integrative Plant Biology, 2012, 54(4):260-269.
  36. Liu Z H, Li W H, Qi H Q, Song G L, Ding D, Fu Z Y, Liu J B, Tang J H*. Arsenic accumulation and distribution in the tissues of inbred lines in maize (Zea mays L.). Genetic Resources and Crop Evolution, 2012, DOI 20.1007/s10722-012-9792-z.
  37. Liu Jing-bao, Fu Zhi-yuan, Xie Hui-ling, Hu Yan-min, Liu Zong-hua, Duan Liu-jing, Xu Shang-zhong, Tang Ji-hua*. Identification of QTLs for maize seed vigor at three stages of seed maturity using a RIL population. Euphytica, 2011, 178: 127-135.
  38. Yang XH, Yan JB, Shah T, Warburton ML, Li Q, Li L, Gao YF, Chai YC, Fu ZY, Zhou Y, Xu ST, Bai GH, Meng YJ, Zheng YP, Li JS*. Genetic analysis and characterization of a new maize association mapping panel for quantitative trait loci dissection. Theor and Appl Genet, 2010, 121:417-431.
  39. Tang JH, Fu ZY, Hu YM, Li JS, Sun LL, Ji HQ. Genetic analyses and mapping of a new thermo-sensitive genic male sterile gene in maize. Theor Appl Genet, 2006, 113: 11-15.
  1. 专利、软著及品种
  1. 付志远,陈永强,汤继华,郭战勇,张雪海,李卫华,丁冬,王洪秋,薛亚东,李浩川. 玉米高赖氨酸基因ZmcytMdh4的分子标记及其应用,2021-11-23,ZL2019 1 0413352.2
  2. 付志远,汤继华,周清倩,王洪秋,薛亚东,李浩川,张雪海,李卫华,郭战勇. 玉米微管动态调控基因ZmTFCB、其拷贝数鉴定分子标记及应用,2022-6-17,ZL2021 1 0644651.4
  3. 付志远,汤继华,丁冬,李卫华,李浩川,薛亚东,郭占勇. 玉米发芽势基因ZmGLP的功能分子标记及其应用,2018-8-24,ZL2016 1 0050403.6
  4. 汤继华,付志远,丁冬,李卫华,王雅菲,宗军. 玉米穗粒重和产量调控基因KWE2、其编码蛋白、功能标记、表达载体及应用,2023-07-21,ZL 2022 1 0524175.7
  5. 汤继华,付志远,张慧,王洪秋,薛亚东,陈永强,陈晓阳. 玉米叶片衰老调控基因ZmUPF1、其鉴定引物及应用,2022-6-10,ZL2021 1 1065183.1
  6. 王雅菲,付志远,李文学,汤继华,陈永强. 一种调控植物体内生长素平衡的EHD1蛋白及其应用,2020-3-6,ZL 2017 1 0056999.5
  7. 汤继华,王洪秋,付志远,李文学,郭战勇,张雪海,康定明. 玉米籽粒大小基因ZmUrb2、其表达产物、其克隆引物、其表达载体及应用,2020-11-24,ZL2017 1 1459421.0
  8. 张雪海,汤继华,付志远,陈晓阳,李卫华,薛亚东,陈永强,李浩川. 一种农作物种植用施肥装置,2022-11-28,ZL2022 2 2112441.3
  9. 李卫华,汤继华,付志远,丁冬,张战辉,张雪海,李浩川,薛亚东,陈晓阳,郭战勇. 一种应用于玉米遗传育种中使用的取粉器,2021-10-1,ZL2020 1 1559970.7
  10. 薛亚东,汤继华,丁冬,付志远,李卫华. 玉米C型细胞质雄性不育核恢复基因及其应用,2021-8-17,ZL2018 1 0182640.7
  11. 丁冬,王琪月,汤继华,付志远,薛亚东,李卫华,张战辉. 控制玉米籽粒灌浆的基因及编码产物、引物、载体和应用,2022-6-28,ZL2019 1 1404576.3  
  12. 丁冬,王琪月,汤继华,郭占勇,张雪海,付志远,陈晓阳,李卫华. 一种玉米砷胁迫抗性基因ZmAsR1及其引物、编码产物、连锁SNP和应用,2022-6-28,ZL2019 1 1410073.7
  13. 张雪海,李建新,付志远,汤继华. 中国玉米品种及其亲本系谱数据库平台,计算机软件著作权,2022-1-5,2022SR0012612
  14. 张雪海,汤继华,李建新,付志远,熊雪航. 玉米育种智能化管理系统,计算机软件著作权,2022-2-15,2022SR0228029
  15. 汤继华,付志远,李卫华,陈晓阳,丁冬,刘宗华,张雪海,王洪秋. 豫单888,2021-12-31,国审玉20210082
  16. 汤继华,陈永强,张战辉,付志远,薛亚东,郭战勇,胡彦民,李浩川,王雅菲. 豫单863,2021-12-31,国审玉20210521
奖励与荣誉
  1. 河南省第二届自然科学优秀学术论文一等奖(第一),1项,2013
  2. 河南省第四届自然科学优秀学术论文三等奖(第一),1项,2018
  3. 河南省教育厅科技成果奖优秀科技论文一等奖(第一),5项,2015、2016、2019
  4. 河南省教育厅科技成果奖优秀科技论文二等奖(第一),1项,2021
  5. 英国上市公司官网365暑期大学生文化科技卫生“三下乡”社会实践活动优秀指导教师,2011
  6. 河南省高等学校第二批黄大年式教师团队(26/38),2021
  7. 河南省本科高校课程思政教学团队(5/11),2021
  8. 河南省优秀研究生导师团队(2/10),2023
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