1.基本信息
张东,1981年9月出生,安徽固镇人,博士,教授,博士生导师,国家苹果产业技术体系副首席科学家、“苗木繁育与栽培方式”岗位科学家、执行专家组成员,“仲英青年学者”,国家苹果改良中心杨凌分中心试验基地首席科学家,国家苹果产业技术体系陇东矮砧示范中心常务副主任,全国果茶经济作物种苗繁育协作组组长,全国苹果矮砧集约高效栽培协作组秘书长。
2004年毕业于安徽农业大学园艺系,获学士学位,2006年在浙江大学获硕士学位。2006-2009年,在淮北师范大学工作。2009-2012年在浙江大学攻读博士学位,期间曾获“浙江大学博士生引领计划一等资助”、“浙江省优秀毕业生”等奖励或称号,2012年6月,获得农学博士学位。2012年7月,到维多利亚vic115优惠大厅工作至今。2013年10月至2017年9月,在职进入维多利亚vic115优惠大厅园艺学博士后流动站工作。2018年7月至2019年7月,美国康涅狄格大学访问学者。
主持国家自然科学基金、国家苹果产业技术体系、国家重点研发计划子课题、中国博士后科学基金特别资助、陕西省留学人员择优资助、教育部博士点基金和陕西省重大专项子课题、陕西省重点研发项目、陕西省自然科学基金等科研项目10余项。先后在《The Plant Cell》、《Molecular Ecology》、《Plant Biotechnology Journal》、《Horticulture Research》、《Plant Cell and Environment》和《园艺学报》等杂志发表论文100余篇,担任《Horticulture》和《International Journal of Molecular Sciences》杂志编委和客座编辑,担任Fruit Research杂志青年编委。参编专著1部,获授权国家发明专利10余项,获陕西高等学校科学技术研究优秀成果奖一等奖(1/11),陕西省科学技术进步奖一等奖1项(3/11),华耐园艺科技奖一等奖1项(3/20),陕西省农业技术推广成果奖一等奖1项(9/30)和教育部高等学校科学研究优秀成果奖(科学技术)科技进步奖二等奖1项(10/20)。
2.研究兴趣
研究方向为:苹果发育生物学与矮砧集约高效栽培技术。主要包括:苹果无性变异与繁殖的基础与应用;砧穗组合评价与区划;苗木繁育与矮化栽培技术;苹果砧木育种。
3. 教学工作和研究生指导
本科教学:承担本科生果树栽培学、试验设计与分析、果树冬季修剪、园艺学概论等课程。试验设计与分析课程获校在线教学优秀案例,果树栽培学课程档案获园艺学院教学文档评比三等奖。在校青年教师讲课比赛中获二等奖和三等奖各1次,院青年教师讲课比赛中获一等奖3次、二等奖1次。主持校级本科生教研项目2项(其中1项验收为优秀),研究生教改项目1项(验收为优秀),作为第一作者发表教研论文3篇,指导大学生科技创新项目10余项(国家级2项)。指导本科生获得优秀学位论文1人次。获优秀班主任,就业先进个人、师德师风考核优秀等奖励或称号多次。
研究生指导:指导在站博士后2名,在读研究生25名,其中博士生8名,硕士生17名;已培养博士后2人,博士3人,硕士研究生26名。指导研究生获得校级优秀学位论文2人次,国家奖学金2人次。2019~2021年连续三年获园艺学院优秀研究生指导教师。
4.科研项目
1) 国家苹果产业技术体系苗木繁育与栽培方式岗位(CARS-27)2021-2025
2) 国家苹果产业技术体系苗木繁育与栽培方式岗位(CARS-27)2018-2020
3) 国家自然科学基金面上项目(31872937)2019-2022
4) 国家自然科学基金面上项目(31672101)2017-2020
5) 国家自然科学基金青年基金项目(31301753)2014-2016
6) 国家重点研发计划子课题 (2018YFD1000101) 2018-2022
7) 国家重点研发计划子课题 (2019YFD1000803) 2019-2022
8) 陕西省留学人员科技活动择优资助项目(2020-07)2021-2023
9) 中国博士后科学基金第七批特别资助(2014T70939) 2014-2017
10) 中国博士后科学基金项目(一等资助)(2014M56806) 2014-2017
11) 陕西省科技重大专项子课题(2020zdzx03-01-04)2020-2025
12) 唐仲英基金会项目子课题2020-2025
13) “仲英青年学者”项目2017-2020
14) 国家星火计划项目(2014GA850002)2014-2015
15) 教育部博士点基金(新教师类)(20130204120004)2014-2016
16) 陕西省重点研发计划(重点项目)(2017NY0055)2017-2019
17) 陕西省自然科学基金(青年人才项目) (2013JQ3005) 2013-2014
18) 杨凌示范区科技计划项目(2018NY-08)2018-2020
5. 发表主要论文(*为通讯作者):
第一或通讯作者(含并列作者)发表文章
1) Mao J., Niu C., Li K., Fan L., Liu Z., Li S., Ma D., Tahir, M. M., Xing L., Zhao C., Ma J., An N., Han M., Ren X., & Zhang D. * .2022. Cytokinin-responsive MdTCP17 interacts with MdWOX11 to repress adventitious root primordium formation in apple rootstocks. The Plant cell, koac369. https://doi.org/10.1093/plcell/koac369
2) Tahir, M. M., Tong L., Fan L., Liu Z., Li S., Zhang X., Li K., Shao Y., Zhang D., * & Mao, J. * .2022. Insights into the complicated networks contribute to adventitious rooting in transgenic MdWOX11 apple microshoots under nitrate treatments. Plant, Cell & environment, 45(10), 3134–3156. https://doi.org/10.1111/pce.14409
3) Mao J., Ma D., Niu C., Ma X., Li K., Tahir, M. M., Chen S., Liu X., & Zhang D. * .2022. Transcriptome analysis reveals the regulatory mechanism by which MdWOX11 suppresses adventitious shoot formation in apple. Horticulture Research, 9, uhac080. https://doi.org/10.1093/hr/uhac080
4) Chen X., Cornille, A., An N., Xing L., Ma J., Zhao C., Wang Y., Han M., & Zhang D. * .2022. The East Asian wild apples, Malus baccata (L.) Borkh and Malus hupehensis (Pamp.) Rehder., are additional contributors to the genomes of cultivated European and Chinese varieties. Molecular Ecology, 10.1111/mec.16485. Advance online publication. https://doi.org/10.1111/mec.16485
5) Liu Y., Gao X., Tong L., Liu Z., Zhou K., Tahir, M. M., Xing L., Ma J., An N., Zhao C., Yao, J., & Zhang D. * .2022. Multi-omics analyses reveal MdMYB10 hypermethylation being responsible for a bud sport of apple fruit color. Horticulture Research, 9, uhac179. https://doi.org/10.1093/hr/uhac179
6) Zhang X., Li S., Tang T., Liu Y., Tahir, M. M., Wang C., Meng Z., Niu J., Yang W., Ma J., Zhang D. * .2022. Comparison of morphological, physiological, and related-gene expression responses to saline-alkali stress in eight apple rootstock genotypes. Scientia Horticulturae, 306 (2022) 111455. https://doi.org/10.1016/j.scienta.2022.111455
7) Tahir, M. M., Li S., Liu M., Fan L., Tang T., Zhang X., Mao J., Li K., Abid K., Shao Y., Zhang D. * & Ma J *.2022. Different miRNAs and hormones are involved in PEG-induced inhibition of adventitious root formation in apple, Scientia Horticulturae, 303 (2022) 111206. https://doi.org/10.1016/j.scienta.2022.111206
8) Li S., Tahir, M. M., Wu T., Xie L., Zhang X., Mao J., Ayyoub, A., Xing L., Zhang D., * & Shao Y. * .2022. Transcriptome Analysis Reveals Multiple Genes and Complex Hormonal-Mediated Interactions with PEG during Adventitious Root Formation in Apple. International Journal of Molecular Sciences, 23(2), 976. https://doi.org/10.3390/ijms23020976
9) Ma J., Xie L., Zhao Q., Sun Y., & Zhang D. *.2022. Cyclanilide Induces Lateral Bud Outgrowth by Modulating Cytokinin Biosynthesis and Signalling Pathways in Apple Identified via Transcriptome Analysis. International Journal of Molecular Sciences, 23(2), 581. https://doi.org/10.3390/ijms23020581
10) Zuo X., Xiang W., Li K., Liu Y., Zheng S., Khan A., & Zhang, D. *.2022. MdGRF11, a growth-regulating factor, participates in the regulation of flowering time and interacts with MdTFL1/MdFT1 in apple. Plant Science, 321, 111339. https://doi.org/10.1016/j.plantsci.2022.111339
11) Li K., Tian H., Tahir, M. M., Li S., Chen S., Fan L., Liu Z., Mao J., & Zhang D. * .2022. Transcriptome analysis reveals that cytokinins inhibit adventitious root formation through the MdRR12-MdCRF8 module in apple rootstock. Plant Science, 318, 111220. https://doi.org/10.1016/j.plantsci.2022.111220
12) Tahir, M. M., Tong L., Xie L., Wu T., Muhammad I. G., Zhang X., Li S., Gao X., Leeza T., Zhang Dong., *& Shao Y. * .2022. Identification of the HAK Gene Family Reveals Their Critical Response to Potassium Regulation During Adventitious Root Formation in Apple Rootstock, Horticultural Plant Journal, Https://doi.org/10.1016/j.hpj
13) Tahir M. M., Mao J., Li S., Li K., Liu Y., Shao Y., Zhang D.,* & Zhang X.*. 2022. Insights into Factors Controlling Adventitious Root Formation in Apples, Horticulturae, 2022, 8, 276. https://doi.org/10.3390/horticulturae8040276
14) Mao J., Niu C., Chen S., Xu Y., Khan A, Zuo Q., Wang C., Han M., Bao L., Zhang D.*. 2021. Effects of exogenous methyl-jasmonate on the morphology, hormone status, and gene expression of developing lateral roots in Malus hupehensis. Scientia Horticulturae, 289 (2021)110419. DOI: 10.1016/j.scienta.2021.110419.
15) Li K., Tian H., Mao J., Abid Khan, Tahir M. M. , Li S., Chen S., Shao Y., Zhang D.*. 2021. Effect of darkness treatment on the morphology, hormone status and gene expression of developing adventitious root in apple rootstock. Plant Cell, Tissue and Organ Culture (PCTOC).2021:1-16.
16) Zhang X., Tahir M. M., Li S., Tang T., Mao J., Li K., Shao Y.,Yang W., Niu J.*, Zhang D.*. 2021. Effect of exogenous abscisic acid (ABA) on the morphology, phytohormones, and related gene expression of developing lateral roots in‘Qingzhen 1’apple plants. Plant Cell, Tissue and Organ Culture (PCTOC). 2021:1-12.
17) Tahir M. M, Lu Z.,Wang C., Shah K., Li S., Zhang X., Mao J., Liu Y., Shalmani A., Li K., Bao L., Zhang D.*. 2021. Nitrate Application Induces Adventitious Root Growth by Regulating Gene Expression Patterns in Apple Rootstocks. Journal of Plant Growth Regulation. DOI:10.1007/s00344-021-10527-8.
18) Tahir M. M, Zhang X., Shah Kamran, Hayat Faisal, Li S., Mao J., Li K., Liu Y., Shao Y.*, Zhang D.*. 2021. Nitrate application affects root morphology by altering hormonal status and gene expression patterns in B9 apple rootstock nursery plants. Fruit Research 2021, 1: 14.
19) Zhang X., Tahir M. M., Li S., Mao J., Nawaz Muhammad Azher, Liu Y., Li K., Xing L., Niu J., Zhang D.*. 2021. Transcriptome analysis reveals the inhibitory nature of high nitrate during adventitious roots formation in the apple rootstock. Physiologia Plantarum. 2021,173(3): 867-882. DOI: 10.1111/ppl.13480.(G4)
20) Zuo X., Xiang W., Zhang L., Gao C., An N., Xing L., Ma J., Zhao C., Zhang D.*. 2021. Identification of apple TFL1-interacting proteins uncovers an expanded flowering network. Plant Cell Reports.2021,40(12):2325-2340. DOI: 10.1007/s00299-021-02770-w.
21) Tahir M. M., Li S., Mao, J., Liu Y., Li K., Zhang X., Lu X., Ma X., Zhao C., Zhang D.*. 2021. High nitrate inhibited adventitious roots formation in apple rootstock by altering hormonal contents and miRNAs expression profiles. Scientia Horticulturae, 286 (2021) 110230. DOI: 10.1016/j.scienta.2021.110230.
22) Li K., We Y., Wang R., Mao J., Tian H., Chen S., Li S., Tahir M. M., Zhang D.*. 2021. Mdm-MIR393b-mediated adventitious root formation by targeted regulation of MdTIR1A expression and weakened sensitivity to auxin in apple rootstock. Plant Science:308,110909.DOI: https://doi.org/10.1016/j.plantsci.2021.110909.
23) Yang W., Ma X., Ma D.,Shi J., Hussain S., Han M., Costes, E , Zhang D.*. 2021. Modeling canopy photosynthesis and light interception partitioning among shoots in bi‑axis and single‑axis apple trees (Malus domestica Borkh.). 2021,Trees:1-17. DOI:10.1007/s00468-021-02085-z.
24) Zuo X.,Wang S., Xiang W, Yang H., Tahir, M. M.,Zheng S., An N., Han M., Zhao C. and Zhang D.*. 2021. Genome-wide identification of the 14-3-3 gene family and its participation in response to floral transition by interacting with TFL1/FT in Apple. BMC Genomics.2021:22(1), DOI:10.1186/s12864-020-07330-2.
25) Mao J., Niu C., Li K., Chen S., Tahir M. M., Han M., Zhang D.*. 2020. Melatonin promotes adventitious root formation in apple by promoting the function of MdWOX11. BMC Plant Biology, 20(1). DOI:10.1186/s12870-020-02747-z.
26) Tahir M. M., Wang H., Ahmad, B., Liu Y., Fan S., Li K.,Lei C., Khan A., Li S., Zhang D.*. 2020. Identification and characterization of NRT gene family reveals their critical response to nitrate regulation during adventitious root formation and development in apple rootstock. Scientia Horticulturae, 275.DOI: 10.1016/j.scienta.2020.109642
27) Mao J., Niu C., Li K., Tahir M. M. , Khan A., Wang H., Li S., Liang Y., Li G., Yang Z., Zuo L., Han M., Ren X., An N., Zhang D.*. 2020. Exogenous 6-benzyladenine application affects root morphology by altering hormone status and gene expression of developing lateral roots in Malus hupehensis. Plant Biology. 2020, 22: 1150-1159. DOI: 10.1111/plb.13154
28) Meng Y., Mao JP., Tahir M. M., Wang H., Zhang D.*. 2020. Mdm-miR160 Participates in Auxin-Induced Adventitious Root formation of apple rootstock. Scientia Horticulturae. 2020, 270. DOI: 10.1016/j.scienta.2020.109442
29) Wang H., Tahir M. M., Nawazb A., Mao J., Li K., Wei Y., Ma D., Lu X., Zhao C., Zhang D.*. 2020. Spermidine application affffects the adventitious root formation and root morphology of apple rootstock by altering the hormonal profifile and regulating the gene expression. Pattern. Scientia Horticulturae, DOI: org/10.1016/j.scienta.2020.109310
30) Li K., Liu Z., Xing L., Wei Y., Mao J., Meng Y., Bao L., Han M., Zhao C.*., Zhang D*. 2019. miRNAs associated with auxin signaling, stress response, and cellular activities mediate adventitious root formation in apple rootstocks Plant Physiology and Biochemistry 2019, doi: org/10.1016/j.plaphy.2019.03.006.
31) Meng Y., Xing L., Li K., Wei Y., Wang H., Mao J., Dong F., Ma D., Zhang Z., Han M., Zhao C., Tahir M. M., Zhang D.*. 2019. Genome-wide identification, characterization and expression analysis of novel long non-coding RNAs that mediate IBA-induced adventitious root formation in apple rootstocks . Plant Growth Regulation 2019, doi: org/10.1007/s10725-018-0470-9
32) Mao J., Zhang D.(Co-first author), Zhang X., Li K., Liu Z., Liu X., Meng Y., Lei C., Han M*. 2018. Inhibition of adventitious root development in apple rootstocks by cytokinin is based on its suppression of adventitious root primordia. Physiologia Plantarum 2018, doi:10.1111/ppl.12817
33) Xing L., Zhang D. (Co-first author), Qi S., Chen X., An N., Li Y., Zhao C., Han M., Zhao J. * 2018. Transcription profiles reveal the regulatory mechanisms of spur bud changes and flower induction in response to shoot bending in apple (Malus domestica Borkh.), Plant Molecular Biology. 99:45–66. doi:10.1007/s11103-018-0801-2.
34) Li k., Liang Y., Xing L., Mao J., Liu Z., Dong F., Meng Y., Han M., Zhao C., Bao L., Zhang D*. 2018. Transcriptome Analysis Reveals Multiple Hormones, Wounding and Sugar Signaling Pathways Mediate Adventitious Root Formation in Apple Rootstock. International Journal of Molecular Sciences, 19 (8): 1-28 DOI: 10.3390/ijms19082201
35) Fan S., Zhang D.(Co-first author), Gao C., Wan S., Lei C., Wang J., Zuo X., Dong F., Li Y., Shah K., Han M.*. 2018. Mediation of Flower Induction by Gibberellin and its Inhibitor Paclobutrazol: mRNA and miRNA Integration Comprises Complex Regulatory Cross-Talk in Apple. Plant and Cell Physiology. 0(0): 1–20 doi:10.1093/pcp/pcy154
36) Lei C., Fan S., Li K., Meng Y., Mao J., Han M., Zhao C., Bao L. and Zhang D.*. 2018. iTRAQ-Based Proteomic Analysis Reveals Potential Regulation Networks of IBA-Induced Adventitious Root Formation in Apple. International Journal of Molecular Sciences, 19, 667.
37) Song C., Zhang D. (Co-first author), Zheng L., Han M.*. 2017. miRNA and Degradome Sequencing Reveal miRNA and Their Target Genes That May Mediate Shoot Growth in Spur Type Mutant “Yanfu 6.” Frontiers in Plant Science. 8:441. DOI:10.3389/fpls.2017.00441.
38) Mao J., Zhang D. (Co-first author), Li K., Liu Z., Liu X., Song C., Li G., Zhao C., Ma J., Han M.*. 2017. Effect of exogenous Brassinolide (BR) application on the morphology, hormone status, and gene expression of developing lateral roots in Malus hupehensis. Plant Growth Regul. 82(4) :1-11 DOI 10.1007/ s10725-017-0264-5
39) Bai S., Sun Y., Yang F., Ni J., Qian M., Shu Qun., Zhang D.*, Teng Y.*. 2017. Transcriptome analysis of bagging-treated fruit peel of red Chinese sand pear ‘Meirensu’ (Pyrus pyrifolia Nakai) reveals insight of light response and differential regulation of anthocyanin accumulation related genes. Scientific Reports 7, 63 DOI :10.1038/s41598-017-00069-z
40) Qian M., Ni J., Niu Q., Bai S., Bao L., Li J., Sun Y., Zhang D.*, Teng Y.*. 2017. Response of miR156-SPL module during the red peel coloration of bagging-treated Chinese sand pear (Pyrus pyrifolia Nakai). Frontiers in Physiology. 8:550. DOI : 10.3389/fphys.2017.00550
41) Bao L., Li K., Teng Y., Zhang D.*. 2017. Characterization of the complete chloroplast genome of the wild Himalayan pear Pyrus pashia (Rosales: Rosaceae: Maloideae). Conservation Genet Resour, 9:1-3.
42) Xing L., Zhang D.(Co-first author), Zhao C., Li Y., Ma J., An N., Han M.*. 2016. Shoot bending promotes flower bud formation by miRNA-mediated regulation in apple (Malus domestica Borkh.) Plant Biotechnology Journal DOI: 10.1111/pbi.12425
43) Xing L., Zhang D. (Co-first author), Song X., Weng K., Zhao C., Li Y., Ma J., An N., Han M.*. 2016. Identifying genome-wide sequence variations and comparing floral-associated traits based on re-sequencing of two varieties of apple (Malus domestica Borkh.) ‘Nagafu No. 2’ and ‘Qinguan’. Frontiers in Plant Science
44) Fan S., Zhang D. (Co-first author), Zhao C., Ma J., Han M.*. 2016. Correlative Proteome by iTRAQ Analysis Reveals Critical Mechanisms in Alternate Bearing Malus prunifolia; Journal of Proteome Research, 2016, 15(10).
45) Zhang S., Zhang D. (Co-first author), Fan S., Du L., Shen Y., Xing L., Li Y., Ma J., Han M.*. 2016. Effect of exogenous GA3 and its inhibitor paclobutrazol on floral formation, endogenous hormones, and flowering-associated genes in ‘Fuji’ apple (Malus domestica Borkh.);Plant Physiology and Biochemistry; 2016 107:178-186
46) Song C., Zhang D. (Co-first author), Zhang J., Zheng L., Zhao C., Ma J., An N., Han M.*. 2016. Expression analysis of key auxin synthesis, transport, and metabolism genes in different young dwarfing apple trees. Acta Physiologiae Plantarum, 2016, 38(2):1-15.DOI:10.1007/s11738-016-2065-2
47) Bao L., Li K., Liu Z., Liu Z., Han M., Zhang D.*. 2016. Characterization of the complete chloroplast genome of the Chinese crabapple Malus prunifolia, (Rosales: Rosaceae: Maloideae). Conservation Genetics Resources, 2016, 8(3):227-229.DOI 10.1007/s12686-016-0540-0
48) Li Y., Zhang D. (Co-first author), Xing L., Zhang S., Zhao C., Han M.*. 2016. Effect of exogenous 6-benzylaminopurine (6-BA) on branch type, floral induction and initiation, and related gene expression in ‘Fuji’ apple (Malus domestica, Borkh). Plant Growth Regulation, 2016, 79(1):65-70.
49) Xing L., Zhang D.(Co-first author), Li Y., Zhao C., Zhang S., Shen Y., An N., Han M.*. 2015. Transcription profiles reveal sugar and hormone signaling pathways mediating flower induction in apple (Malus domestica Borkh.). Plant Cell Physiology. DOI:10.1093/pcp/pcv124
50) Xing L., Zhang D.(Co-first author), Li Y., Zhao C., Zhang S., Shen Y., An N., Han M.*. 2014. Genome-wide identification of vegetative phase transition-associated microRNAs and target predictions using degradome sequencing in Malus hupehensis. BMC Genomics, 15:1125 DOI:10.1186/1471-2164-15-1125
51) Li B., Wang J., Ren X., Bao L., Zhang L., Zhang L., Han M., Zhang D.*. 2015. Root growth, yield and fruit quality of 'Red Fuji' apple trees in relation to planting depth of dwarfing interstock on the Loess Plateau. European Journal of Horticultural Science, 2015, 80(3):109-116.
52) Qian M., Sun Y., Andrew A., Teng Y.*, Zhang D.*. 2014. The red sport of 'Zaosu'pear and its red-striped pigmentation pattern are associated with demethylation of the PyMYB10 promoter. Phytochemistry 107:16-23. (IF="3.5)
53) Qian M., Yu B., Teng Y.*, Zhang D.*. 2014. Isolation and expression analysis of anthocyanin biosynthesis genes from the red Chinese sand pear, Pyrus pyrifolia Nakai cv. Mantianhong, in response to methyl jasmonate treatment and UV-B/VIS conditions. Plant Molecular Biology Reporter 32:48-437
54) Sun Y., Qian M., Wu R., Niu Q., Teng Y.*, Zhang D.*. 2014. Postharvest pigmentation in red Chinese sand pears (Pyrus pyrifolia Nakai) in response to optimum light and temperature. Postharvest Biology and Technology 91:64-71.
55) Zhang D., Qian M., Yu B. and Teng Y.*. 2013. Effect of fruit maturity on UV-B-induced post-harvest anthocyanin accumulation in red Chinese sand pear. Acta Physiologiae Plantarum. 35 (9):2857-2866.
56) Zhang D., Teng Y. and Bao L.*. 2011. Genetic diversity of red skinned Chinese sand pear cultivars revealed by AFLP markers. Acta Horticulturae, 918:679-684.
57) Zhang D., Yu B., Bai J., Qian M., Shu Q., Su J., Teng Y.*. 2012. Effects of high temperatures on UV-B/visible irradiation induced postharvest anthocyanin accumulation in 'Yunhongli No. 1' (Pyrus pyrifolia Nakai) pears. Scientia Horticulturae, 134:53-59.
58) Qian M., Zhang D.(Co-first author), Yue X., Wang S., Li X. and Teng Y.*. 2013. Analysis of different pigmentation patterns in 'Mantianhong' (Pyrus pyrifolia Nakai) and 'Cascade' (P. communis L.) under bagging treatment and postharvest UV-B/visible irradiation conditions. Scientia Horticulturae, 151:75-82.
59) Yu B., Zhang D.(Co-first author), ang C, Qian M., Zheng X.. Teng Y., Su J., and Shu Q.*. 2012. Isolation of anthocyanin biosynthetic genes in red Chinese sand pear (Pyrus pyrifolia Nakai) and their expression as affected by organ/tissue, cultivar, bagging and fruit side. Scientia Horticulturae, 136:29-37.
60) 陈皓,谢玲玲,孙怡婷,贾鹏,马娟娟,张东*苹果CTK响应因子MdRR1的克隆和功能初步分析[J].分子植物育种,2021,19(17):5612-5622.
61) 徐一超,卢显,王荣花,刘福云,张东*. 不同移栽基质对苹果砧木B9无糖组培苗生长的影响. 陕西农业科学。
62) 鲍俊华,李珂,王程程,张东*. 苹果全基因组AHK家族成员鉴定与表达分析,西南师范大学学报(自然科学版),2021,49(9):65-74.
63) 韦燕红,刘桢,李珂,孟媛,汪蕙,毛江萍,马豆豆,李少欢,马娟娟,卢显,张东*. 苹果miR396家族鉴定及在不定根发育过程中的表达分析,园艺学报,2020, 47(7):1237-1252.
64) 马小龙,马豆豆,史继东,韩明玉,杨伟伟,张东*. 双主干并棒树形对矮化自根砧苹果幼树生长和结果的影响, 园艺学报,2020,47 (3):541-550.
65) 辛明志,陶炼,樊胜,艾炳伟,闫淼,王珏,韩明玉,张东*. 纬度和海拔对主要苹果品种花芽分化期的影响, 园艺学报,2019,46 (4):761–774.
66) 张丽之,张昕,左希亚,邢利博,樊胜,李有梅,赵彩平,韩明玉,张东*. 2019.外源葡萄糖对‘长富 2 号’苹果花芽生理分化期可溶性糖和相关基因表达的影响,园艺学报,2019,46 (1):11–24.
67) 董凤, 樊胜, 马小龙, 孟媛, 左希亚, 刘小杰, 李珂, 刘桢, 韩明玉, 张东*. 2018. 苹果赤霉素氧化酶基因GA2ox、GA3ox和GA20ox家族全基因组鉴定及表达分析. 园艺学报, (4). 613–626.
68) 李珂, 刘桢, 雷超, 左超然, 董凤, 孟媛, 毛江萍, 韩明玉, 张东*. 2018. 苹果全基因组CRF家族成员鉴定及在不定根发育过程中的表达分析. 园艺学报, (4). 627–640.
69) 张东, 张宝娟, 李文强, 马娟娟, 檀鸣, 杜俊兰, 韩明玉. 2016. 渭北黄土高原苹果不同砧穗组合幼树根系发育和分布的特征. 园艺学报, 43(4): 623-632
70) 张东, 郑立伟, 韩明玉, 高琛稀, 罗文文, 马娟娟. 2016. 黄土高原成龄富士苹果园土壤养分含量标准值研究. 园艺学报,43(1): 121-132
71) 张东, 赵娟, 韩明玉, 高琛稀, 罗文文, 郑立伟. 2014. 黄土高原富士苹果叶片矿质养分与果实品质相关性分析. 园艺学报, 41(11): 2179-2187
72) 罗文文, 高琛稀, 赵彩平, 刘航空, 张东*, 韩明玉* . 2014. 不同海拔环境因子对富士苹果叶片和果实品质的影响. 应用生态学报, 25 (8): 2243-2250
73) 张东, 俞波, 钱敏杰, 王苏珂, 李秀根, 滕元文. 2012. 机械伤促进红色砂梨着色的机制分析. 园艺学报, 39(1):23-30.
74) 张东, 滕元文. 2011. 红梨资源及其果实着色机理研究进展. 果树学报,28 :485-492.
75) 张东, 舒群, 滕元文, 仇明华, 鲍露. 2007. 中国红皮砂梨的SSR分析. 园艺学报,34:47-52.
(2)参与发表学术论文
1) Zhao W., Wang L., Liu M., Zhang D., Andika Ida. B., Zhu Y., Sun L.*.2022. Areduced starch level in plants at early stages of infection by viruses can be considered a broad-range indicator of virus presence, Viruses, 14(6), 1176. https://doi.org/10.3390/v14061176
2) Li G.; Tan M.; Ma J.; Chen F.; Li K.; Liu X.; Zhao C.; Zhang D.; Xing L.; Ren X.; Han M.; An N*. Molecular mechanism of MdWUS2-MdTCP12 interaction in mediating cytokinin signaling to control axillary bud outgrowth. Journal of Experimental Botany 2021, 72(13). https://doi.org/10.1093/jxb/erab163.
3) Jia P.,Xing L.,Zhang C., Zhang D., Ma J., Zhao C., Han M., Ren X., An N.*. 2021. MdKNOX19, a class II knotted-like transcription factor of apple, plays roles in ABA signalling/sensitivity by targeting ABI5 during organ development. Plant science,2021.302. DOI: 10.1016/j.plantsci.2020.110701
4) Jia P.,Xing L.,Zhang C.,Chen H.,Li Y.,Zhang D.,Ma J.,Zhao C.,Han M.,Ren X.,An N.*. 2021. MdKNOX15, a class I knotted-like transcription factor of apple, controls flowering and plant height by regulating GA levels through promoting the MdGA2ox7 transcription. Environmental and Experimental Botany 2021, 104411. https://doi.org/10.1016/j.envexpbot.2021.104411.
5) Jia P.,Zhang C.,Xing L.,Li Y.,Shah KR,Zuo X.,Zhang D.,An N., Han M.,Ren X.*. 2020. Genome-Wide Identification of the MdKNOX Gene Family and Characterization of Its Transcriptional Regulation in Malus domestica. Frontiers in plant science, 2020,11. DOI: 10.3389/fpls.2020.00128
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8) Zheng L., Yang Y., Gao C., Ma J., Shah K., Zhang D., Zhao C., Xing L., Han M., An N*., Ren X.*. 2019. Transcriptome analysis reveals new insights into MDBAK1-mediated plant growth in Malus domestica. Journal of Agricultural and Food Chemistry 2019, doi : 10.1021/acs.jafc.9b02467
9) Fan S., Gao X., Gao C., Yang Y., Zhu X., Feng W., Li R., Tahir M., Zhang D., Han M.*., An N.*. 2019. Dynamic cytosine DNA methylation patterns associated with mRNA and siRNA expression profiles in alternate bearing apple trees. Journal of Agricultural and Food Chemistry 2019, doi: 10.1021/acs.jafc.9b00871
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12) Zheng L., Ma J., Zhang L., Gao C., Zhang D., Zhao C., Han M*. 2018. Revealing critical mechanisms of BR-mediated apple nursery tree growth using iTRAQ-based proteomic analysis. Journal of Proteomics 173 139-154.
13) Mao J., Zhang D., Zhang X., Li K., Liu Z., Liu X., Meng Y., Lei C., Han M*. 2018. Effect of exogenous indole-3-butanoic acid (IBA) application on the morphology, hormone status, and gene expression of developing lateral roots in Malus hupehensis. Scientia Horticulturae 232 (2018) 112–120.
14) Li Y., Zhang D., Zhang X., Xing L., Fan S., Ma J., Zhao C., Du L., Han M.*. 2018. A transcriptome analysis of two apple (Malus × domestica) cultivars with different flowering abilities reveals a gene network module associated with floral transitions. Scientia Horticulturae, 239:269-281.
15) Luo X., Ye Z., Xu H., Zhang D., Bai S. Ying Y., 2018. Robustness improvement of NIR-based determination of soluble solids in apple fruit by local calibration. Postharvest Biology and Technology 139 (2018) 82-90.
16) An N., Fan S., Wang Y., Zhang L., Gao C., Zhang D., Han M.*. 2018. Genome-wide identification, characterization and expression analysis of long non-coding RNAs in different tissues of apple. Gene, 666:44-57.
17) Tan M., Li G., Liu X., Chen F., Ma J., Zhao C., Zhang D., Han M.*. 2018. Exogenous application of GA3, inactively regulates axillary bud outgrowth by influencing of branching-inhibitors and bud-regulating hormones in apple (Malus domestica, Borkh.). Molecular Genetics & Genomics, 2018:1-17.
18) Tan M., Li G., Qi S., Liu X., Chen X., Ma J., Zhang D., Han M.*. 2018. Identification and expression analysis of the IPT and CKX gene families during axillary bud outgrowth in apple (Malus domestica Borkh.). Gene, 651:106-117 DOI: 10.1016/j.gene.2018.01.101
19) Bai S., Sun Y., Yang F., Ni J., Qian M., Shu Q., Zhang D.*, Teng Y.*. 2017, Transcriptome analysis of bagging-treated fruit peel of red Chinese sand pear ‘Meirensu’ (Pyrus pyrifolia Nakai) reveals insight of light response and differential regulation of anthocyanin accumulation related genes. Scientific Reports 7, 63 DOI :10.1038/s41598-017-00069-z.
20) Qian M., Ni J., Niu Q., Bai S., Bao L., Li J., Sun Y., Zhang D.*, Teng Y.*. 2017, Response of miR156-SPL module during the red peel coloration of bagging-treated Chinese sand pear (Pyrus pyrifolia Nakai). Frontiers in Physiology. 8:550. DOI : 10.3389/fphys.2017.00550
21) Fan S., Zhang D., Gao C., Zhao M., Wu H., Li Y., Shen Y. and Han M.*. 2017. Identification, Classification, and Expression Analysis of GRAS Gene Family in Malus domestica. Frontiers in Physiology. 8:253. DOI: 10.3389/fphys.2017.00253
22) Li Y., Zhang D., Zhang L., Zuo X., Fan S., Zhang X., Shalmani A., Han M.*. 2017. Identification and expression analysis of cytokinin response-regulator genes during floral induction in apple (Malus domestica Borkh). Plant Growth Regul. DOI 10.1007/s10725-017-0311-2
23) Fan S., Zhang D., Zhang L., Gao C., Xin M., Mobeen M.. Li Y., Ma J., Han M.*. 2017. Comprehensive analysis of GASA family members in the Malus domestica genome: identification, characterization, and their expressions in response to apple flower induction. BMC Genomics 18:827. DOI: 10.1186/s12864-017-4213-5
24) Fan S., Zhang D., Xing L., Qi S., Du L., Wu H., Shao H., Li Y., Ma J., Han M.*. 2017. Phylogenetic analysis of IDD gene family and characterization of its expression in response to flower induction in Malus. Molecular Genetics & Genomics, 292(4):755-771.DOI: 10.1007/s00438-017-1306-4
25) Chen H., Zuo X., Shao H., Fan S., Ma J., Zhang D., Zhao C., Yan X., Liu X., Han M.*. 2017. Genome-wide analysis of carotenoid cleavage oxygenase genes and their responses to various phytohormones and abiotic stresses in apple (Malus domestica) 2017 Plant Physiology and Biochemistry DOI: 10.1016/j.plaphy.2017.12.001
26) Chen H., Shao H., Li K., Zhang D., Fan S., Li Y., Han M.*. 2017. Genome-wide identification, evolution, and expression analysis of GATA transcription factors in apple (Malus ×domestica Borkh.) Gene. 5;627:460-472. DOI: 10.1016/j.gene.2017.06.049.
27) Du L.,Qi S., Ma J., Xing L., Fan S., Zhang S., Li Y., Shen Y., Zhang D., Han M.*. 2017. Identification of TPS family members in apple (Malus x domestica Borkh.) and the effect of sucrose sprays on TPS expression and floral induction. Plant Physiology and Biochemistry. 120,10-23
28) Zheng L., Ma J., Zhang L., Gao C., Zhang D., Zhao C., Song C., An N., Qi S., Han M.* 2017. Genome-wide identification and expression profiling analysis of brassinolide signal transduction genes regulating apple tree architecture. Acta Physiol Plant (2017) 39:177
29) Li J., Li F., Qian M., Han M., Liu H., Zhang D., Ma J., Zhao C.*. 2017. Characteristics and regulatory pathway of the PrupeSEP1 SEPALLATA gene during ripening and softening in peach fruits. Plant Science, 257, 63-73.
30) Bai S., Sun Y., Qian M., Yang F., Ni J., Tao R., LI L., Shu Q., Zhang D.*, Teng Y. 2017. Transcriptome analysis of bagging-treated red Chinese sand pear peels reveals light-responsive pathway functions in anthocyanin accumulation. Scientific Reports, 2017, 7(1):63.
31) Qian M., Zhang Y., Yan X., Han M., Li J., Li F., Zhang D., Zhao C.*. 2016. Identification and Expression Analysis of Polygalacturonase Family Members during Peach Fruit Softening. International Journal of Molecular Sciences, 17(11), 1933.
32) Chen H., Shao H., Fan S., Ma J., Zhang D., Han M.*. 2016. Identification and Phylogenetic Analysis of the POLYGALACTURONASE Gene Family in Apple. Horticultural Plant Journal 2, 241-252.
33) Li G., Ma J., Tan M., Mao J., An N., Sha G., Zhang D., Zhao C., and Han M.*. 2016. Transcriptome analysis reveals the effects of sugar metabolism and auxin and cytokinin signaling pathways on root growth and development of grafted apple. BMC Genomics, 2016, 17(1):150.DOI 10.1186/s12864-016-2484-x
34) Li F., Li J., Qian M., Han M., Cao J., Liu H., Zhang D., and Zhao C.*. 2016. Identification of Peach NAP Transcription Factor Genes and Characterization of their Expression in Vegetative and Reproductive Organs during Development and Senescence. Frontiers in Plant Science, 2016, 7(e111837):147.
35) Teng Y.*, Zhang D., Yu B., Qian M., Wang S., Li X., Su J. and Shu Q. 2015. Comparison of anthocyanin accumulation of red Chinese sand pear (Pyrus pyrifolia Nakai) grown at two locations. Acta Horticulturae, 1094:175-182.
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39) Bao L., Chen K., Zhang D., Li X. and Teng Y. 2008. An Assessment of Genetic Variability and Relationships within Asian Pears Based on AFLP (Amplified Fragment Length Polymorphism) Markers. Scientia Horticulturae, 116:374-380.
40) Bao L., Chen K., Zhang D., Cao Y., Yamamoto T and Teng Y.. 2007. Genetic diversity and similarity of pear cultivars native to East Asia revealed by SSR (Simple Sequence Repeat) markers. Genetic Resources and Crop Evolution, 54:959-971.
41) 王润红, 茹晓雅, 蒋腾聪, 王景红, 王钊,苏宝峰,张东,于强,冯浩,何建强*.基于物候模型研究未来气候情景下陕西苹果花期的可能变化[J].中国农业气象,2021,42(9):729-745
42) 王世祥,左希亚,邢利博,樊胜,张东,韩明玉,张林森*. 2019. 苹果成花抑制蛋白SVP基因的克隆、表达及启动子活性分析[J]. 园艺学报,2019,46 (08):1445-1457.
43) 宋春晖, 张东, 马娟娟, 毛江萍, 张宝娟, 韩明玉*. 2017. 苹果生长素运输基因MdABCB19克隆及其在矮化自根砧苗木中的表达分析. 园艺学报, (03): 409-421.
44) 杜利莎, 齐思言, 马娟娟, 邢利博, 樊胜, 李有梅, 张东, 赵彩平, 韩明玉*. 2017. '长富2号'苹果短枝幼果摘除对芽叶可溶性糖积累和成花相关基因表达的影响. 园艺学报, (04): 622-632.
45) 齐思言, 邢利博, 张东, 杜利莎, 李有梅, 樊 胜, 马娟娟, 赵彩平, 韩明玉*. 2017. 苹果‘长富2号’开花调控转录因子基因MdIDD7的克隆及表达分析. 园艺学报, 44(5): 828-838.
46) 刘小杰, 樊胜, 李国防, 檀鸣, 默宁, 马娟娟, 张东, 韩明玉. 2017. 苹果全基因组PIN成员鉴定及MdPIN15的克隆和在腋芽萌发中的表达分析. 园艺学报, 44(11): 2041–2054.
47) 张宝娟, 马娟娟, 张东, 宋春晖, 李文强, 许云鹏, 韩明玉. 2017. 渭北地区不同砧穗组合富士苹果幼树树体易成形性及早花早果性研究. 西北农业学报, (03): 405-411.
48) 张宝娟, 张东, 马娟娟, 宋春晖, 李文强, 赵彩平, 杨 杰, 韩明玉*. 2017. 渭北地区富士苹果不同砧穗组合幼树内源激素含量与早花性和易成形性关系的研究. 园艺学报, 44(10): 1837-1848.
49) 樊胜, 雷超, 辛明志, 邵红霞, Muhammad Mobeen Tahir, 张东, 韩明玉. 2017. 苹果赤霉素信号转导因子MdGAMYB 的克隆和表达分析. 园艺学报, 44 (5): 817-827.
50) 许云鹏, 赵彩平, 张东, 檀鸣, 张宝娟, 韩明玉. 2017. 不同育苗容器对苹果苗木生长和生理特性的影响. 北方园艺, (01): 18-23.
51) 郑立伟, 赵才德, 宋春晖,马娟娟, 张 东, 张丽之, 韩明玉. 2018. 苹果BR信号转录因子基因MdBZR1的克隆及表达分析. 园艺学报, (2). 205–216.
52) 樊胜, 张岚清, 刘柯, 雷超, 陈欣, 姚殿城, 张东, 韩明玉. 2016. '长富2号'开花调控转录因子MdSPL6基因的克隆及表达分析. 43(11): 2089-2098.
53) 陈鸿飞, 邵红霞, 樊胜, 马娟娟, 张东, 韩明玉. 2016. 苹果全基因组多聚半乳糖醛酸酶基因家族的鉴定及进化分析. 园艺学报, 43(10): 1863-1877.
54) 郑立伟, 马娟娟, 张东, 等. 2016. 苹果矮化砧木T337 MdCBB1基因的克隆与表达分析. 西北农业学报, (09): 1365-1370.
55) 高琛稀, 刘航空, 韩明玉, 张东, 杨杰. 2016. 矮化自根砧苹果苗木生长动态及其根系分布特征分析. 维多利亚vic115优惠大厅学报(自然科学版), 44(5): 170-176
56) 张洁, 宋春晖, 韩明玉, 张东, 高琛稀. 影响苹果砧木水分利用效率的叶片形态生理参数筛选研究. 林业科学,2016
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59) 李有梅, 邢利博, 张东, 申亚文, 张松文, 韩明玉. 2014. 喷施IAA抑制富士幼树花芽孕育的机制研究. 西北农业学报
60) 鲍露, 张东, 滕元文, 陈昆松. 2006. DNA标记技术在梨属植物研究中的应用. 果树学报, 23:270-275.
6.出版专著情况:
韩明玉主编,张东等参编. 黄土高原苹果发育调控理论与实践. 中国农业出版社. 2015年5月. 97万字. 承担第四章(共5章),黄土高原苹果园产量与质量控制,约20.5万字
7.科研获奖情况:
张东,邢利博,安娜,马娟娟,韩明玉,马锋旺,杨伟伟,张满让,李丙智,查养良,史继东.黄土高原富士苹果成花机理与调控技术体系研发与应用。2022年陕西高等学校科学技术研究优秀成果奖,一等奖。 陕西省教育厅。2022年2月25日。
赵政阳,马锋旺,张东,梁俊,路树国,李会科,邹养军,韩明玉,史继东,查养良,张建军. 苹果高效轻简化栽培模式及技术体系研究与示范。陕西省科技进步奖,一等奖。陕西省人民政府。2021年3月10日。
李丙智,谢宏伟,郑振华,侯满伟,刘刚,薛永发,张满让,李高潮,张东,杨新文,王军会,周林军,王俊峰,史继东,李永焘,袁泽清,权丽春,曹珊,魏生强,刘文杰,栾东珍,褚广东,赵明生,苟大锋,冯海智,胡晓望,索龙,张艳,白亮,李志东. 苹果矮砧省力化高效栽培技术研究与推广。2021年度陕西农业技术推广成果奖,一等奖。陕西省人民政府。2022年4月24日。
韩明玉,张立新,张东,张林森,马明,畅文选,韩立新,邢利博,王延平,马娟娟,杨伟伟,李文强,张满让,寇建村,翟丙年,李会科,李高潮,赵彩平,李丙智,安娜. 黄土高原富士苹果成花机理与调控关键技术研究与应用. 华耐园艺科技奖一等奖(中国园艺学会、北京华耐农业发展有限公司)。2016年10月。
李丙智,李高潮,王俊峰,王金政,刘俊峰,韩立新,李永焘,刘建海,定明谦,张东,李红涛,张林森,张满让,张立新,王仙林,李晓斌,任明琪,范崇辉,张水绒,张立功,刘镇. 北方苹果生态果园建设关键技术示范与推广. 教育部高等学校科学研究优秀成果奖(科学技术)科技进步奖-推广类二等奖。2016年2月。
校级优秀硕士学位论文指导教师,马小龙,富士苹果冠层数字化模拟与高光效易成花树形评价指标的筛选(2018)
校级优秀硕士学位论文指导教师,谢玲玲,不同苹果品种苗木分枝特性及6-BA调控效应研究(2022)
《园艺学报》突出贡献审稿专家,(中国园艺学会、《园艺学报》编辑部)(2020)
《园艺学报》优秀审稿专家,(中国园艺学会、《园艺学报》编辑部)(2018, 2019, 2021)
8. 授权国家发明专利:
1) 张东,马小燕,王敏瑞,鲍俊华,李金伟,程曦,马娟娟. 一种基于RT-RPA-LFD技术快速检测苹果茎沟病毒的方法,申请号:202111249403.6,申请日:2021年10月26日.(申请中)
2) 张东, 马娟娟, 李珂, 李文强. 一种适合旱地苹果园宽行密植栽培树形及培养方法. CN 111264270 A,中国. 国家发明专利.(申请中)
3) 张东, 徐一超,李珂, 毛江萍,卢显. 一种苹果砧木楸子的快速繁殖及无糖生根培养方法. 中国.国家发明专利.(申请中)
4) 张东;毛江萍;韩明玉;李珂;宋春晖;刘祯.一种抑制平邑甜茶侧根发育的方法;ZL 2016 1 0980613.5;授权公告日: 2020年12月1日
5) 张东, 毛江萍, 韩明玉, 李珂, 宋春晖, 刘祯. 一种提高苹果转基因材料再生效率的方法; ZL 2017 1 0005611.9; 授权公告日: 2018年11月13日
6) 张东, 韩明玉, 申亚文, 邢利博, 张林森.一种自压式简易滴灌系统; 专利号: ZL.2014 1 0331692.8; 授权公告日: 2016年7月6日
7) 张东, 韩明玉, 王超, 李有梅, 韩静, 赵彩平. 一种苹果砧木MM116组培快繁的方法; 专利号: ZL.2014 1 033345.9; 授权公告日: 2016年3月2日
8) 韩明玉, 王超, 张东, 陈锡龙, 韩静, 赵彩平. 一种苹果品种烟富6号组培快繁的方法; 专利号: ZL.2014 1 033455.5; 授权公告日: 2016年1月20日
9) 韩明玉, 王超, 张东, 邢利博, 韩静, 赵彩平. 一种苹果砧木T337快速繁殖的方法; 专利号; ZL.2014 1 0331177.x; 授权公告日: 2016年1月6日;
10) 韩明玉, 韩静, 张东, 宋春晖, 王超, 赵彩平. 一种苹果品种玉华早富快速繁殖的方法; 公开(公告)日: 2015年12月2日; 公开(公告)号: ZL 2014 1 0330953.4
11) 韩明玉, 邢利博, 张东, 宋春晖. 一种促进富士苹果幼树花芽形成的整形修剪方法; 专利号: ZL 2013 1 0003544.9; 授权公告日: 2014年2月19日
12) 韩明玉, 宋春晖, 张东, 邢利博, 张庆伟. 一种苹果优质矮化中间砧大苗的繁育方法; 专利号: ZL 2013 1 0015263.5; 授权公告日: 2014年7月30日
13) 滕元文, 俞波, 张东. 一种红色砂梨采后着色装置及方法; 专利号: ZL 2011 1 0027653.5; 授权公告日: 2012年7月25日
14) 滕元文, 张东, 钱敏杰. 一种利用化学药剂促进红色砂梨着色的方法; 专利号: ZL 2012 1 01681.49.1; 授权公告日: 2013年07月24日
15) 滕元文,张东, 钱敏杰. 一种采后诱导红色砂梨着色的方法; 专利号ZL 2012 1 0148097.1; 授权公告日: 2014年5月14日
9. 学术会议交流(*为通讯作者):
1) Cytokinin-responsive MdTCP17 interacts with MdWOX11 to repress adventitious root primordia formation in apple rootstock, the 7th International Horticulture Research Conference July 1st - 30th, 2020 Online
2) 世界苹果苗木繁育和栽培方式技术趋势与我国现状及问题分析,山东园艺学会科技工作者日系列活动之“现代园艺产业技术大讲堂”活动,中国知网(CNKI)http://k.cnki.net/Mobile/Cinfo/Index?id="4951 在线,2020.5.18
3) 世界苹果苗木繁育和栽培方式技术趋势与我国现状及问题分析,中国苹果产业发展战略研讨会暨全国苹果矮砧集约栽培协作组工作交流会,2019.11.7-2019.11.9
4) 世界苹果苗木繁育技术趋势与我国现状及问题分析,全国苹果矮砧集约栽培协作组2018年度研讨会,2018.3.9-2018.3.10
5) 黄土高原苹果花芽分化分子机理与调控,第五届全国果树分子生物学学术研讨会,2015.9.18-2015.9.20
6) 红色砂梨着色的生理分子机制与调控,维多利亚vic115优惠大厅第一届博士后学术论坛,2014.11.29-2014.11.29
10. 联系方式
通讯地址:陕西杨凌邰城路3号维多利亚vic115优惠大厅南校农科大楼园艺学院419室 邮编:712100
Email: afant@nwafu.edu.cn
网页:/szdw/260720.htm
Researchgate:https://www.researchgate.net/profile/Dong-Zhang-58
ORCID: https://orcid.org/0000-0003-1392-2971
Scopus: https://www.scopus.com/authid/detail.uri?authorId="7405359565