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邢利博

来源:   作者:   发布日期:2019-05-23     浏览次数:

     

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邮编:712100

通讯地址:陕西杨凌邰城路3号西北农林科技大学农科大楼-加拿大28预测开奖官网咪牌- #309办公室

Email: libo_xing@nwsuaf.edu.cn

ORCID: https://orcid.org/0000-0002-8918-7128 

Researcher ID: https://www.researchgate.net/profile/Xing_Libo

Scopus: https://www.scopus.com/authid/detail.uri?authorId=56653005800


一、 基本信息

个人简介

邢利博, 中共党员, 博士, 副教授,博士生导师。获2018年《陕西省优秀博士学位论文》。2017年9月进入加拿大28预测开奖官网咪牌果树系参加工作, 讲师;2019年1月破格晋升果树系副教授,遴选为硕士生导师。担任《Horticulturae》期刊客座编辑;《BMC Genomics》、《The Plant Genome》、《Plant Cell Reports》、《Plant and Cell Physiology》、《Journal of Agricultural and Food Chemistry》和《Frontiers in Plant Science》等国际SCI期刊审稿人。

教育经历

2013.9—2016.7: 加拿大28预测开奖官网咪牌果树学专业, 博士学位。

2010.9—2013.7:加拿大28预测开奖官网咪牌园艺植物种质资源学专业, 硕士学位。

2006.9—2010.7:加拿大28预测开奖官网咪牌设施农业科学与工程专业, 学士学位。

工作经历

2019.1—至今:加拿大28预测开奖官网咪牌果树系, 副教授(破格)。

2017.9—2019.1:加拿大28预测开奖官网咪牌果树系, 讲师。

2016.9—2017.9:美国康奈尔大学植物系-植物免疫学, 博士后。

二、研究方向

苹果栽培生理与发育调控。主要包括苹果成花诱导生理分子机制与调控;苹果C/N营养利用与成花效应评价;苹果砧穗组合评价筛选与应用。挖掘苹果属植物与易花早果等性状密切关联基因, 进行功能分析, 为苹果矮化栽培易花、早果的分子遗传育种奠定基础。

三、教学工作

开设课程

承担本科生《果树学》、《设施园艺学》、《设施果树栽培学》、《果树生理生态学》、《果树冬季修剪》、《园艺操作技能训练》、《毕业综合实习》等理论与实践课程。

教改项目

(1) 校级教学改革项目:融合多学科交叉的《设施果树栽培学》教学改革与实践, 邢利博,张朝红,马百全,et al., 2021.

(2) 校级实验教学建设项目:《设施果树栽培学》,邢利博,张朝红, 马白全,2020.

(3) 校级实验教学建设项目:《果树种类识别及果园管理》,关长飞, 邢利博, et al., 2020.

(4) 校级实验教学建设项目:《园艺植物生物技术》,胡体旭, 邢利博, et al., 2020.

(5) 校级教学教改项目:以案例为基础的线上线下教学模式在《试验设计与统计分析》的应用. 马娟娟,刘国甜,邢利博,2019.

教改论文

(1) 马百全,邢利博.《园艺植物栽培学概论》教学改革探索—以西北农林科技大学园艺专业为例[J]. 教育现代化,2019.9.

(2) 马百全,邢利博.《果树学》考卷题型分析与改革[J].教育现代化,2019.9.

(3) 马百全,邢利博.《设施果树栽培》教学改革探索—以西北农林科技大学园艺果树专业为例[J].教育教学论坛,2019.12.

四、科研项目

(1) 国家自然科学基金-面上项目 (32072522),2021.1-2024.12,主持

(2) 国家自然科学基金-青年项目 (31801813),2019.1-2021.12,主持

(3) 陕西省苹果产业转型升级关键技术研发及产业化示范科技重大专项 (2020zdzx03-01-04),2020.7-2025.7,子课题,主持

(4) 唐仲英基金会项目-唐仲英黄土高原苹果节水增效综合技术方案与示范 (C200022002),2020.7-2025.7,子课题,主持

(5) 宁夏回族自治区重点研发计划 (2021BBF02014), 2021.4-2023.12, 子课题,主持

(6) 中国博士后科学基金第12批特别资助 (2019T120954),2020.1-2022.1,主持

(7) 中国博士后科学基金第59批面上一等资助 (2018M631207),2018.7-2020.7,主持

(8) 陕西省自然基金一般项目 (青年项目) (2020JQ-248),2020.4-2022.4,主持

(9) 西北农林科技大学博士科研启动项目 (Z109021733),2017.9-2020.9,主持

(10) 陕西苹果产业发展专项 (K332021403),2021.1-2023.12,主持

(11) 苹果优质大苗繁育与矮砧栽培关键技术 (K3380216075),2021.4-2023.12,主持

(12) 苹果脱毒矮化自根砧大苗培育技术研究与示范 (K3330215110),2021.2-2023.12,主持

(13) 苹果矮化自根砧苗木繁育 (K332021417),2021.5-2023.12,主持

(14) 西北干旱农业科技服务关键技术集成与示范 (K303021301), 2021.2-2022.12,主持

(15) 国家自然科学基金面上项目 (31672101), 2017.1-2020.12,参与 (4/8)

(16) 国家自然科学基金面上项目 (3187110675), 2019.1-2022.12,参与 (3/8)

五、发表论文(第一作者;*通讯作者)

公开发表学术论文50余篇,其中以第一或通讯作者在Plant Biotechnology Journal(1),J Agric Food Chem(2),European Journal of Agronomy(1), Plant & Cell Physiology(2),BMC Plant Biology(2),BMC Genomic(1) 和Plant Molecular Biology(1) 等期刊发表SCI论文20余篇。

2022年

(1) Zhang C#.; An Na#.; Jia Peng#.; Zhang Wei.; Liang J.; Hua Zhou.; Zhang D.; Ma Juan.; Zhao C.; Han M.; Ren X.; Xing L*. MdNup62 interactions with MdHSFs involved in flowering and heat-stress tolerance in apple. BMC Plant Biology 2022, 22-317. https://doi.org/10.1186/s12870-022-03698-3.

(2) Zhang C#.; Zhang X#.; Cheng B#.; Wu J.; Zhang L.; Xiao X.; Zhang D.; Zhao C.; An N*.; Han M*.; Xing L*. MdNup54 Interactions With MdHSP70 Involved in Flowering in Apple. Frontiers in Plant Science 2022, Accept.

(3) Wang M.; Xing L*. Epigenomic regulatory mechanism in Alternate Bearing Malus prunifolia. 2022, Under Review.

(4) Zhang W.; Xing L*. Epigenomic methanism regulating the quality and ripeness of apple fruit with differing harvest maturity. 2022, Under Review.

(5) Chen X.; Cornille A.; An, N.; Xing L; Ma J.;  Zhao C; Wang Y.; Han M.; Zhang, D*. The Siberian wild apple, Malus baccata (L.) Borkh., is an additional contributor to the genomes of cultivated European and Chinese apples. Molecular Evolution 2022. https://doi.org/10.1101/2021.09.19.460969..

(6) Zhou H#.; Zhang C.; Xing L*. Epigenomic regulatory mechanism of flowering in apple demonstrated in two varieties with contrasted flowering behaviors. 2022, Under Review.

(7) Shah, K#.; An Na#,; Xing L*. Identification of MdMED family in Malus domestica and the role of key coactivator MdMED81 links super-enhancers in    regulation of flowering under salicylic acid pathway. Scientia Horticulture 2022, Accept.

     (8) Xing* et al. Comparative proteomic and metabonomic profiling of buds in apple with different flowering capabilities reveal novel insights into the     regulatory mechanisms of flower bud formation. 2022, Under Review.

    (9) Li H., Zhang M., Shen M., Zhang Z., Zhang B., Zhang H., Hu J., Ren X., Xing L*.; Zhao J*. Correction the ambient temperature effect on the model stability of handheld devices for detecting apple soluble solids content. European Journal of Agronmy 2022, 133,126430. https://doi.org/10.1016/j.eja.2021.126430.

2021年

(1) Liu S.; Zhang D., Xing L*. ITRAQ-based Proteomic Analysis of Apple Buds Provides New Insights into Regulatory Mechanisms of Flowering Induction in Response to Shoot Bending. Scientia Horticultura 2021, 290 (15), 110520. https://doi.org/10.1016/j.scientia 2021.110526.

(2) Shah, K.; Xing L*. Regulation of flowering by improving leaf health markers and expansion by Salicylic acid treatment: A new approach to induce flowering in Malus domestica.  Frontiers in Plant Science 2021, 12. https://doi.org/10.3389/fpls.2021.655974.

(3) Jia, P#.; Xing, L#.; Zhang, C#.; Zhang, D#.; Ma, J.; Zhao, C.; Han, M.; Ren, X.; An, N*. 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, 110701. https://doi.org/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*. 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) 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.

(6) Zhang Q*.; Tang S.; Li, J.; Fan C.; Xing L.; Luo K*. Integrative transcriptomic and metabolomic analyses provide insight into the long-term submergence response mechanisms of young Salix variegata stems. Planta 2021, 253, 88.  https://doi.org/10.1007/s00425-021-03604-5

(7) Zuo X.; Xiang W.; Zhang L.; Gao C.; An N.; Xing L.; Ma J.; Zhao C.; Zhang D*.Identification of apple TFL1-interacting proteins uncovers an expanded flowering network. Plant Cell Reports 2021, 65(10). https://doi.org/10.1007/s00299-021-02770-w

2020年

(1) Zhang, C#.; An, N#.; Jia, P#.; Zhang, W.; Liang, J.; Zhang, X.; Zhou, H.; Ma, W.; Han, M*.; Xing, L*.; Ren, X*. Genomic Identification and Expression Analysis of Nuclear Pore Proteins in Malus Domestica. Scientific Reports 2020, 10 (1), 1–15. https://doi.org/10.1038/s41598-020-74171-0.

(2) Shah, K.; An, N.; Ma, W.; Ara, G.; Ali, K.; Kamanova, S.; Zuo, X.; Han, M*.; Ren, X*.; Xing, L*. Chronic Cement Dust Load Induce Novel Damages in Foliage and Buds of Malus Domestica. Scientific Reports 2020, 10 (1), 12186. https://doi.org/10.1038/s41598-020-68902-6.

(3) Qi, S#.; Ma, W#.; An, N.; Gao, X.; Du, L.; Zhang, D.; Ma, J.; Zhao, C.; Han, M.; Xing, L*. Identification of CDF Family Members in Apple and Their Expression in Response to Sucrose during Floral Induction. Journal of Plant Interactions 2020, 15 (1), 241–256. https://doi.org/10.1080/17429145.2020.1760951.

(4) Xing, L*.; Qi, S.; Zhou, H.; Zhang, W.; Zhang, C.; Ma, W.; Zhang, Q.; Shah, K.; Han, M.; Zhao, J*. Epigenomic Regulatory Mechanism in Vegetative Phase Transition of Malus Hupehensis. J. Agric. Food Chem. 2020, 68 (17), 4812–4829. https://doi.org/10.1021/acs.jafc.0c00478.

(5) Zhang, B.; Zhang, M.; Shen, M.; Li, H.; Zhang, Z.; Zhang, H.; Zhou, Z.; Ren, X.; Ding, Y.; Xing, L*.; Zhao, J*. Quality Monitoring Method for Apples of Different Maturity under Long-Term Cold Storage. Infrared Physics & Technology 2020, 103580. https://doi.org/10.1016/j.infrared.2020.103580.

(6) Zhang, M.; Zhang, B.; Li, H.; Shen, M.; Tian, S.; Zhang, H.; Ren, X.; Xing, L*.; Zhao, J*. Determination of Bagged ‘Fuji’ Apple Maturity by Visible and near-Infrared Spectroscopy Combined with a Machine Learning Algorithm. Infrared Physics & Technology 2020, 111, 103529. https://doi.org/10.1016/j.infrared.2020.103529.

(7) Zhao, J.; Quan, P.; Liu, H.; Li, L.; Qi, S.; Zhang, M.; Zhang, B.; Li, H.; Zhao, Y.; Ma, B.; Han, M.; Zhang, H.; Xing, L*. Transcriptomic and Metabolic Analyses Provide New Insights into the Apple Fruit Quality Decline during Long-Term Cold Storage. J. Agric. Food Chem. 2020, 68 (16), 4699–4716. https://doi.org/10.1021/acs.jafc.9b07107.

(8) Jia, P.; Zhang, C.; Xing, L.; Li, Y.; Shah, K.; Zuo, X.; Zhang, D.; An, N.; Han, M.; Ren, X*. Genome-Wide Identification of the MdKNOX Gene Family and Characterization of Its Transcriptional Regulation in Malus Domestica. Frontiers in Plant Science 2020, 11, 128. https://doi.org/10.3389/fpls.2020.00128.

(9) Shi, P.; Xu, Z.; Zhang, S.; Wang, X.; Ma, X.; Zheng, J.; Xing, L.; Zhang, D.; Ma, J.; Han, M.; Zhao C*. Construction of a High-Density SNP-Based Genetic Map and Identification of Fruit-Related QTLs and Candidate Genes in Peach [Prunus Persica (L.) Batsch. BMC plant biology 2020, 20, 438. https://doi.org/10.1186/s12870-020-02557-3.

(10) Song, C.; Zhang, D.; Zheng, L.; Shen, Y.; Zuo, X.; Mao, J.; Meng, Y.; Wu, H.; Zhang, Y.; Liu, X.; Qian, M.; Zhang, J.; Li, G.; Zhao, C.; Xing, L.; Ma, J.; Han, M.; An, N*. Genome-Wide Identification and Expression Profiling of the YUCCA Gene Family in Malus Domestica. Scientific Reports 2020, 10 (1), 10866. https://doi.org/10.1038/s41598-020-66483-y.

2019年

(1) Xing, L#.; Zhang, D#.; Qi, S#.; Chen, X.; An, N.; Li, Y.; Zhao, C.; Han, M.; Zhao, J*. 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 2019, 99 (1), 45–66. https://doi.org/10.1007/s11103-018-0801-2.

(2) Xing, L#.; Li, Y#.; Qi, S#.; Zhang, C.; Ma, W.; Zuo, X.; Liang, J.; Gao, C.; Jia, P.; Shah, K.; Zhang, D.; An, N.; Zhao, C.; Han, M.; Zhao, J*. Comparative RNA-Sequencing and DNA Methylation Analyses of Apple (Malus Domestica Borkh.) Buds with Diverse Flowering Capabilities Reveal Novel Insights into the Regulatory Mechanisms of Flower Bud Formation. Plant and Cell Physiology 2019, 60 (8), 1702–1721. https://doi.org/10.1093/pcp/pcz080.

(3) Li, Y.; Zhang, D.; An, N.; Fan, S.; Zuo, X.; Zhang, X.; Zhang, L.; Gao, C.; Han, M.; Xing, L*. Transcriptomic Analysis Reveals the Regulatory Module of Apple (Malus × Domestica) Floral Transition in Response to 6-BA. BMC plant biology 2019, 19 (1), 93. https://doi.org/10.1186/s12870-019-1695-0.

(4) 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. 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 Regul 2019, 87 (2), 287–302. https://doi.org/10.1007/s10725-018-0470-9.

(5) Shah, K.; Amin, N. U.; Ahmad, I.; Ara, G.; Rahman, M. U.; Zuo, X.; Xing, L*.; Ren, X*. Cement Dust Induce Stress and Attenuates Photosynthesis in Arachis Hypogaea. Environ Sci Pollut Res 2019, 26 (19), 19490–19501. https://doi.org/10.1007/s11356-019-04861-4.

(6) Shah, K.; Amin, N.; Ahmad, I.; Ara, G.; Ren, X*.; Xing, L*. Effects of Chronic Dust Load On Leaf Pigments of the Landscape Plant Murraya Paniculata. Gesunde Pflanzen 2019, 71 (4), 259–259. https://doi.org/10.1007/s10343-019-00479-1.

(7) Tan, M.; Li, G.; Chen, X.; Xing, L.; Ma, J.; Zhang, D.; Ge, H.; Han, M.; Sha, G*.; An, N*. Role of Cytokinin, Strigolactone, and Auxin Export on Outgrowth of Axillary Buds in Apple. Frontiers in Plant Science 2019, 10. https://doi.org/10.3389/fpls.2019.00616.

(8) Zheng, L.; Yang, Y.; Gao, C.; Ma, J.; Shah, K.; Zhang, D.; Zhao, C.; Xing, L.; Han, M.; An, N*.; Ren, X*. Transcriptome Analysis Reveals New Insights into MdBAK1-Mediated Plant Growth in Malus Domestica. J Agric Food Chem 2019, 67 (35), 9757–9771. https://doi.org/10.1021/acs.jafc.9b02467.

(9) Chen, X.; Li, S.; Zhang, D.; Han, M.; Jin, X.; Zhao, C.; Wang, S.; Xing, L.; Ma, J.; Ji, J.; An, N*. Sequencing of a Wild Apple (Malus Baccata) Genome Unravels the Differences Between Cultivated and Wild Apple Species Regarding Disease Resistance and Cold Tolerance. G3: Genes, Genomes, Genetics 2019, 9 (7), 2051–2060. https://doi.org/10.1534/g3.119.400245.

(10) Li, K.; Liu, Z.; Xing, L.; Wei, Y.; Mao, J.; Meng, Y.; Bao, L.; Han, M.; Zhao, C.; Zhang, D*. MiRNAs Associated with Auxin Signaling, Stress Response, and Cellular Activities Mediate Adventitious Root Formation in Apple Rootstocks. Plant Physiology and Biochemistry 2019, 139, 66–81. https://doi.org/10.1016/j.plaphy.2019.03.006.

2018年

(1) Chen, X.; Qi, S.; Zhang, D.; Li, Y.; An, N.; Zhao, C.; Zhao, J.; Shah, K.; Han, M*.; Xing, L*. Comparative RNA-Sequencing-Based Transcriptome Profiling of Buds from Profusely Flowering“Qinguan”and Weakly Flowering“Nagafu No. 2” Apple Varieties Reveals Novel Insights into the Regulatory Mechanisms Underlying Floral Induction. BMC Plant Biol. 2018, 18 (1), 370. https://doi.org/10.1186/s12870-018-1555-3.

(2) Ma, B.; Yuan, Y.; Gao, M.; Xing, L.; Li, C.; Li, M.; Ma, F.; Ma, B.; Yuan, Y.; Gao, M.; Xing, L.; Li, C.; Li, M.; Ma, F*. Genome-Wide Identification, Classification, Molecular Evolution and Expression Analysis of Malate Dehydrogenases in Apple. International Journal of Molecular Sciences 2018, 19 (11), 3312. https://doi.org/10.3390/ijms19113312.

(3) Zuo, X.; Zhang, D.; Wang, S.; Xing, L.; Li, Y.; Fan, S.; Zhang, L.; Ma, J.; Zhao, C.; Shah, K.; An, N.; Han, M*. Expression of Genes in the Potential Regulatory Pathways Controlling Alternate Bearing in “Fuji” (Malus Domestica Borkh.) Apple Trees during Flower Induction. Plant Physiology and Biochemistry 2018, 132, 579–589. https://doi.org/10.1016/j.plaphy.2018.10.003.

(4) An, N.; Fan, S.; Yang, Y.; Chen, X.; Dong, F.; Wang, Y.; Xing, L.; Zhao, C.; Han, M*. Identification and Characterization of MiRNAs in Self-Rooted and Grafted Malus Reveals Critical Networks Associated with Flowering. Int J Mol Sci 2018, 19 (8). https://doi.org/10.3390/ijms19082384.

(5) Li, Y.; Zhang, D.; Zhang, X.; Xing, L.; Fan, S.; Ma, J.; Zhao, C.; Du, L.; Han, M*. A Transcriptome Analysis of Two Apple (Malus × Domestica) Cultivars with Different Flowering Abilities Reveals a Gene Network Module Associated with Floral Transitions. Scientia Horticulturae 2018, 239, 269–281.

(6) Li, K.; Liang, Y.; Xing, L.; Mao, J.; Liu, Z.; Dong, F.; Meng, Y.; Han, M.; Zhao, C.; Bao, L.; Zhang, D*. Transcriptome Analysis Reveals Multiple Hormones, Wounding and Sugar Signaling Pathways Mediate Adventitious Root Formation in Apple Rootstock. International Journal of Molecular Sciences 2018, 19 (8). https://doi.org/10.3390/ijms19082201.

2017年

(1) Du, L.; Qi, S.; Ma, J.; Xing, L.; Fan, S.; Zhang, S.; Li, Y.; Shen, Y.; Zhang, D.; Han, M*. 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 2017, 120, 10–23. https://doi.org/10.1016/j.plaphy.2017.09.015.

(2) Fan, S.; Zhang, D.; Xing, L.; Qi, S.; Du, L.; Wu, H.; Shao, H.; Li, Y.; Ma, J.; Han, M*. Phylogenetic Analysis of IDD Gene Family and Characterization of Its Expression in Response to Flower Induction in Malus. Mol. Genet. Genomics 2017, 292 (4), 755–771. https://doi.org/10.1007/s00438-017-1306-4.

2016年

(1) Xing, L#.; Zhang, D#.; Song, X#.; Weng, K.; Shen, Y.; Li, Y.; Zhao, C.; Ma, J.; An, N.; Han, M*. Genome-Wide Sequence Variation Identification and Floral-Associated Trait Comparisons Based on the Re-Sequencing of the ‘Nagafu No. 2’ and ‘Qinguan’ Varieties of Apple (Malus Domestica Borkh.). Frontiers in Plant Science 2016, 7. https://doi.org/10.3389/fpls.2016.00908.

(2) Xing, L#.; Zhang, D#.; Zhao, C.; Li, Y.; Ma, J.; An, N.; Han, M*. Shoot Bending Promotes Flower Bud Formation by MiRNA-Mediated Regulation in Apple (Malus Domestica Borkh.). Plant Biotechnology Journal 2016, 14 (2), 749–770. https://doi.org/10.1111/pbi.12425.

(3) Zhang, S.; Zhang, D.; Fan, S.; Du, L.; Shen, Y.; Xing, L.; Li, Y.; Ma, J.; Han, M*. 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. https://doi.org/10.1016/j.plaphy.2016.06.005.

(4) Fan, S.; Zhang, D.; Lei, C.; Chen, H.; Xing, L.; Ma, J.; Zhao, C.; Han, M*. Proteome Analyses Using ITRAQ Labeling Reveal Critical Mechanisms in Alternate Bearing Malus Prunifolia. Journal of Proteome Research 2016, 15 (10), 3602–3616. https://doi.org/10.1021/acs.jproteome.6b00357.

(5) Li, Y.; Zhang, D.; Xing, L.; Zhang, S.; Zhao, C.; Han, M*. 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. https://doi.org/10.1007/s10725-015-0111-5.

2015年

(1) Xing, L#.; Zhang, D#.; Li, Y.; Shen, Y.; Zhao, C.; Ma, J.; An, N.; Han, M*. Transcription Profiles Reveal Sugar and Hormone Signaling Pathways Mediating Flower Induction in Apple (Malus Domestica Borkh.). Plant and Cell Physiology 2015, 56 (10), 2052–2068. https://doi.org/10.1093/pcp/pcv124.

2014年

(1) Xing, L#.; Zhang, D#.; Li, Y.; Zhao, C.; Zhang, S.; Shen Y.; An Na; Han, M*. Genome-Wide Identification of Vegetative Phase Transition-Associated MicroRNAs and Target Predictions Using Degradome Sequencing in Malus Hupehensis. BMC Genomics 2014, 15 (1), 1943–1986. https://doi.org/10.1186/1471-2164-15-1125.

六、获奖情况

(1)获2022年陕西省高等学校科学技术研究优秀成果一等奖,《黄土高原富士苹果成花机理与调控技术体系研发与应用》,陕西省科技厅,邢利博(排名2/11),2022.2.

(2)华耐园艺科技一等奖,《黄土高原富士苹果成花机理与调控关键技术研究与应用》,中国园艺学会、北京华耐农业发展有限公司,邢利博(排名8/20), 2016.10.

(3) 2018年陕西省优秀博士学位论文,长富2苹果花芽孕育基因表达模式分析与拉枝调控成花的分子机制》,邢利博;导师:韩明玉 教授;单位:西北农林科技大学. 陕西省教育厅,陕西省学位委员会.

(4) 第八届中国国际“互联网+”大学生创新创业大赛陕西赛区省级复赛《“锅巴镇长”农业经纪人赋能乡村产业振兴的引领者》,铜奖(红色赛道);获奖学生:杜好田、程博等;指导教师:邢利博、张东、刘天军. 2022.8

(5)第十一届“挑战杯”陕西省大学生创新创业计划竞赛《“苹”安计划——苹果优质种业引领者》,银奖获奖学生:程博等;指导老师:张东、孙丽英、邢利博、汪红梅、刘鸿远. 2022.6.

(6)第七届“互联网+”大学生创新创业大赛苹果种业的中国“根”托起中国“芯”——苹果脱毒优质种苗繁育领导者》陕西赛区省级复赛(高教主赛道),银奖获奖学生:程博等;指导老师:张东、邢利博、孙丽英、刘天军. 2022.8.

(7)第七届“互联网+”大学生创新创业大赛苹果种业的中国“根”托起中国“芯”——苹果脱毒优质种苗繁育领导者》校级决赛铜奖(主赛道);获奖学生:程博、李亮、鲍俊华等;指导老师:张东、孙丽英、邢利博、刘天军、王乔春. 2021.8.

(8) 第一届陕西省大学生生命科学竞赛一等奖,《苹果酸度相关基因MdPH3克隆、表达、亚细胞定位及其功能解析》;获奖学生:齐彤辉、顾美娇、孙怡铭、马文芳;指导老师:马白全、邢利博;获奖单位:西北农林科技大学. 2019.5

(9) 兆易创新杯第十五届中国研究生电子设计竞赛西北赛区二等奖,《可随身式苹果采收分选设备》;获奖学生:李豪,张本胜;指导老师:赵娟、邢利博;获奖单位:西北农林科技大学. 2020.8

(10) 加拿大28预测开奖官网咪牌,《师德师风》优秀,邢利博,2018-2019年度.

(11) 加拿大28预测开奖官网咪牌,《先进个人》邢利博,2019-2020年度.

(12) 加拿大28预测开奖官网咪牌,《先进个人》邢利博,2020-2021年度.

(13) 加拿大28预测开奖官网咪牌,《师德师风》优秀,邢利博,2021-2022年度.

(14) 西北农林科技大学“大学生创新创业优秀指导教师”邢利博, 2021-2022年度.

(15) 加拿大28预测开奖官网咪牌年度考核,优秀,邢利博, 2021-2022年度.

(16) 西北农林科技大学第七届博士后年会提交墙报,MdNup62 interactions with MdHSFA1Da involved in regulation of flowering and sensitivity to heat stress in apple’,优秀墙报二等奖(2/30),邢利博,2020.12.19.

(17) The 7th International Horticulture Research Conference,《Epigenomic regulatory mechanism of flowering in apple demonstrated in two varieties with contrasted flowering behaviors》,The third prize for excellent poster, Bonus $75, Libo Xing, 2020.7.1-30.

七、会议交流

(1) 西北农林科技大学第七届博士后年会-专题报告苹果核孔蛋白组分介导成花和高温敏感性调控机制,报告人:邢利博,2020.12.19.

八、专利

(1) 张东, et al., 邢利博(4). 一种自压式简易滴灌系统. 专利号: ZL.2014 10331692.8; 2016.7.6.

(2) 韩明玉, et al., 邢利博(4). 一种苹果砧木T337快速繁殖的方法. 专利号: ZL.2014 1 0331177.x; 2016.1.6.

(3) 韩明玉, 邢利博(2), et al., 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 201310003544.9; 2014.2.19.

(4) 韩明玉, et al., 邢利博(4). 一种苹果优质矮化中间砧大苗的繁育方法. 专利号: ZL 201310015263.5; 2014.7.30.

(5) 赵娟, et al., 邢利博(8). 一种苹果内部多品质一体化无损检测系统及方法. 专利号:ZL201811145053.7; 2019.2.15

(6) 赵娟, et al., 邢利博(8).一种苹果内部多品质一体化无损检测装置,专利号:ZL201821596887.5, 授权日: 2019.06.18

(7) 赵娟, et al., 邢利博(6). 一种货架期苹果品质动态预测系统及预测方法,申请号:CN201910376395.8, 申请日:2019.05.07

(8) 赵娟, et al., 邢利博(6). 一种基于多种苹果品质指标的可视化评定方法,申请号:CN201910376391.X, 申请日:2019.05.07

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