中心简介
中心视频
中心领导
机构设置
团队结构
团队成员
实验室布局
仪器设备
环境与安全
实习基地
实验教学方法
实验运行管理
实验教材
规章制度
开放管理
岗位职责
精品课程
电子课件
教学视频
承担项目
成果专利
发表论文
审定品种

中心领导

  任:马锋旺

1.基本信息

马锋旺,男,汉族,19644月生,山东汶上人。博士,教授(二级),博士生导师。19847月毕业于山东农业大学园艺系,获学士学位;19877月硕士研究生毕业于西北农业大学,获硕士学位;1996年获西北农业大学果树学博士学位。20012月至20022月和20027月至20029月在美国康乃尔大学合作研究。现任西北农林科技大学园艺学院院长,苹果研究院院长,旱区作物逆境生物学国家重点实验室副主任兼资源创新与品种设计方向主任,陕西省苹果重点实验室主任,国际联合苹果研究中心主任,西北农林科技大学延安市洛川苹果试验站首席专家,兼任中国园艺学会苹果分会副理事长、陕西省园艺学会副理事长、陕西省果树品种审定委员会副主任、陕西省林木品种审定委员会委员、《园艺学报》(中、英文版)等期刊编委等学术职务。2002年被授予杨凌示范区“十大杰出青年”荣誉称号,2002年获教育部“优秀青年教师资助计划”,2005年获西北农林科技大学首批“拔尖人才资助计划”,2010年获政府特殊津贴,2016年获批陕西省“三秦学者”特聘教授。

2.研究方向

研究方向为果树逆境生物学,主要针对我国苹果主产区特别是西北黄土高原苹果生产中存在的干旱缺水等突出的逆境问题,开展苹果逆境生物学基础与应用研究。主要研究内容为:(1)苹果抗逆种质和基因的发掘;(2)抗逆生理和分子机理;(3)逆境下果实品质形成与调控;(4)抗逆种质创新与遗传育种;(5)旱区苹果肥水高效利用。

3. 开设课程

为本科生开设“果树栽培学”和“新生研讨课”,为博士研究生主讲“现代果树科学进展”等课程。

4.主要学术成果

1)主持项目情况

5年,先后主持国家自然科学基金重点项目、面上项目、国家产业技术体系、陕西省重点产业创新链项目、陕西省果业发展专项等多个项目。

2)人才培养和团队建设

所指导的研究生曾获得全国优秀博士学位论文提名论文1篇、陕西省优秀博士论文2篇,多人次获得校级优秀博士和硕士学位论文。所带领的团队分别获得学校科研创新团队和推广团队支持计划,团队成员中1人为‘三秦学者’岗位特聘教授,1人获教育部“高等学校优秀青年教师资助计划”,1人为国家‘人才项目专家’青年人才,1人入选国家自然科学基金优秀青年基金,1人入选陕西省“人才计划”,3人入选陕西省“创新人才推进计划”,2人入选教育部“新世纪优秀人才支持计划”,1人为陕西省“青年科技标兵”,1人为“仲英青年学者”。

3)代表性论著(*通讯作者)

出版著作8部,全国统编教材4部;在国内外学术刊物上发表学术论文300余篇,其中180余篇为SCI源刊。代表性论文有:

[1] Jidi Xu, Shasha Zhou, Xiaoqing Gong, Yi Song, Steve van Nocker, Fengwang Ma*, Qingmei Guan*. Single-base methylome analysis reveals dynamic epigenomic differences associated with water deficit in apple. Plant Biotechnology Journal, 2018, 16(2):672687

[2] Xun Sun, Xin Jia, Liuqing Huo, Runmin Che, Xiaoqing Gong, Ping Wang, Fengwang Ma*.  MdATG18a  overexpression improves tolerance to nitrogen deficiency and regulates anthocyanin accumulation through increased autophagy in transgenic apple. Plant Cell and Environment, 2018, 41(2):469–480

[3] Xun Sun, Ping Wang, Xin Jia, Liuqing Huo, Runmin Che, Fengwang Ma*. Improvement of drought tolerance by overexpressing MdATG18a  is mediated by modified antioxidant system and activated autophagy in transgenic apple. Plant Biotechnology Journal, 2018, 16(2):545–557

[4] Xun Sun, Liuqing Huo, Xin Jia, Runmin Che, Xiaoqing Gong, Ping Wang, Fengwang Ma*. Overexpression of MdATG18a  in apple improves resistance to Diplocarpon mali  infection by enhancing antioxidant activity and salicylic acid levels. Horticulture Research,2018, 5:57

[5] Chao Li, Qi Zhao, Tengteng Gao, Hongying Wang, Zhijun Zhang, Bowen Liang, Zhiwei Wei, Changhai Liu*, Fengwang Ma*. The mitigation effects of exogenous melatonin on replant disease in apple. Journal of Pineal Research, 2018, 65(4):e12523

[6] Bowen Liang, Changqing Ma, Zhijun Zhang, Zhiwei Wei, Tengteng Gao, Qi Zhao, Fengwang Ma*, Chao Li*. Long-term exogenous application of melatonin improves nutrient uptake fluxes in apple plants under moderate drought stress. Environmental and Experimental Botany, 2018, 155:650–661

[7] Haibo Wang, Shuang Zhao, Ke Mao, Qinglong Dong, Bowen liang, Chao Li, Zhiwei Wei, Mingjun Li, Fengwang Ma* Mapping QTLs for water-use efficiency reveals the potential candidate genes involved in regulating the trait in apple under drought stress. BMC Plant Biology, 2018, 18:136

[8] Qinglong Dong, Ke Mao, Dingyue Duan, Shuang Zhao, Yanpeng Wang, Qian Wang, Dong Huang, Chao Li, Changhai Liu, Xiaoqing Gong, Fengwang Ma*. Genome-wide analyses of genes encoding FK506-binding proteins reveal their involvement in abiotic stress responses in apple. BMC Genomics, 2018, 19:707

[9] Qinglong Dong, Shuang Zhao, Dingyue Duan, Yi Tian, Yanpeng Wang, Ke Mao, Zongshan Zhou, Fengwang Ma*. Structural and functional analyses of genes encoding VQ proteins in apple. Plant Science, 2018, 272:208219

[10] Linlin Huang, Mingjun Li, Yun Shao, Tingting Sun, Cuiying Li, Fengwang Ma*. Ammonium uptake increases in response to PEG-induced drought stress in  Malus hupehensis  Rehd. Environmental and Experimental Botany, 2018, 151:3242

[11] Linlin Huang, Mingjun Li, Kun Zhou, Tingting Sun, Lingyu Hu, Cuiying Li*, Fengwang Ma*. Uptake and metabolism of ammonium and nitrate in response to drought stress in Malus prunifolia . Plant Physiology and Biochemistry, 2018, 127:185193

[12] Kun Zhou, Lingyu Hu, Bingbing Liu, Yangtiansu Li, Xiaoqing Gong, Fengwang Ma*. Identification of apple fruits rich in health-promoting dihydrochalcones by comparative assessment of cultivated and wild accessions. Scientia Horticulturae, 2018, 233:3846

[13] Qinglong Dong, Dingyue Duan, Shuang Zhao, Bingyao Xu, Jiawei Luo, Qian Wang, Dong Huang, Changhai Liu, Chao Li, Xiaoqing Gong, Ke Mao*, Fengwang Ma*. Genome-wide analysis and cloning of the apple stress-associated protein gene family reveals MdSAP15 , which confers tolerance to drought and osmotic stresses in transgenic Arabidopsis . International Journal of Molecular Sciences, 2018, 19:2478

[14] Haibo Wang, Qinglong Dong, Dingyue Duan, Shuang Zhao, Mingjun Li, Steve van Nocker, Fengwang Ma*, Ke Mao*. Comprehensive genomic analysis of the TYROSINE AMINOTRANSFERASE ( TAT ) genes in apple ( Malus domestica ) allows the identification of MdTAT2  conferring tolerance to drought and osmotic stresses in plants. Plant Physiology and Biochemistry, 2018, 133:81–91

[15] Lingyu Hu, Kun Zhou, Yangtiansu Li, Xiaofeng Chen, Bingbing Liu, Cuiying Li, Xiaoqing Gong*, Fengwang Ma*. Exogenous myo -inositol alleviates salinity-induced stress in Malus hupehensis  Rehd. Plant Physiology and Biochemistry, 2018, 133:116126

[16] Qian Wang, Changhai Liu, Qinglong Dong, Dong Huang, Cuiying Li, Pengmin Li*, Fengwang Ma*. Genome-wide identification and analysis of apple NITRATE TRANSPORTER 1/PEPTIDE TRANSPORTER family (NPF) genes reveals MdNPF6.5  confers high capacity for nitrogen uptake under low-nitrogen conditions. International Journal of Molecular Sciences, 2018, 19:2761

[17] Baiquan Ma, Yangyang Yuan, Meng Gao, Libo Xing, Cuiying Li, Mingjun Li*, Fengwang Ma*. Genome-wide identification, classification, molecular evolution and expression analysis of malate dehydrogenases in apple. International Journal of Molecular Sciences, 2018, 19:3312

[18] Baiquan Ma, Yangyang Yuan, Meng Gao, Tonghui Qi, Mingjun Li*, Fengwang Ma*. Genome-wide identification, molecular evolution, and expression divergence of aluminum-activated malate transporters in apples. International Journal of Molecular Sciences, 2018, 19:2807

[19] Zhiwei Wei, Tengteng Gao, Bowen Liang, Qi Zhao, Fengwang Ma*, Chao Li *. Effects of exogenous melatonin on methyl viologen-mediated oxidative stress in apple leaf. International Journal of Molecular Science, 2018, 19(1):316

[20] Bowen Liang, Tengteng Gao, Qi Zhao, Changqing Ma, Qi Chen, Zhiwei Wei, Cuiying Li, Chao Li*, Fengwang Ma*. Effects of exogenous dopamine on the uptake, transport, and resorption of apple ionome under moderate drought. Frontiers in Plant Science, 2018, 9:755

[21] Dongfeng Jia, Xiaoqing Gong, Mingjun Li, Chao Li, Tingting Sun, Fengwang Ma*. Overexpression of a novel apple NAC transcription factor gene, MdNAC1 , confers the dwarf phenotype in transgenic apple ( Malus domestica ). Genes, 2018, 9(5):229

[22] Kun Zhou, Lingyu Hu, Pengmin Li, Xiaoqing Gong*, Fengwang Ma*.  MaGenome-wide identification of glycosyltransferases converting phloretin to phloridzin in Malus  species. Plant Science, 2017, 265:131145

[23] Bowen Liang, Cuiying Li, Changqing Ma, Zhiwei Wei, Qian Wang, Dong Huang, Qi Chen, Chao Li*, Fengwang Ma*. Dopamine alleviates nutrient deficiency-induced stress in Malus hupehensis . Plant Physiology and Biochemistry, 2017, 119:346359

[24] Xiaoqing Gong, Shuting Shi, Fangfang Dou, Yi Song, Fengwang Ma*. Exogenous Melatonin Alleviates Alkaline Stress in Malus hupehensis  Rehd. By Regulating the Biosynthesis of Polyamines. Molecules, 2017, 22:1542

[25] Na Wang, Tianli Guo, Xun Sun, Xin Jia, Ping Wang, Yun Shao, Bowen Liang, Xiaoqing Gong, Fengwang Ma*. Functions of two Malus hupehensis  (Pamp.) Rehd. YTPs ( MhYTP1  and MhYTP2 ) in biotic- and abiotic-stress responses. Plant Science, 2017, 261: 18-27

[26] Na Wang, Tianli Guo, Ping Wang, Xun Sun, Yun Shao, Xin Jia, Bowen Liang, Xiaoqing Gong, Fengwang Ma*.  MhYTP1  and MhYTP2  from apple confer tolerance to multiple abiotic stresses in Arabidopsis  thaliana. Frontiers in Plant Science, 2017, 8 : 1367(1–9)

[27] Ke Mao, Qinglong Dong, Chao Li, Changhai Liu and Fengwang Ma*. Genome wide identification and characterization of apple bHLH transcription factors and expression analysis in response to drought and salt stress. Frontiers in Plant Science, 2017, 8:480(1–15)

[28] Ping Wang, Xun Sun, Xin Jia, Fengwang Ma*. Apple autophagy-related protein MdATG3s  afford tolerance to multiple abiotic stresses. Plant Science, 2017, 256:5364

[29] Ping Wang, Xun Sun, Na Wang, Xin Jia, Fengwang Ma*. Ectopic expression of an autophagy-associated MdATG7b  gene from apple alters growth and tolerance to nutrient stress in Arabidopsis thaliana. Plant Cell, Tissue and Organ Culture, 2017, 128:923

[30] Yanxiao Tan, Mingjun Li, Yingli Yang, Xun Sun, Na Wang, Bowen Liang, Fengwang Ma*. Overexpression of MpCYS4 , a phytocystatin gene from Malus prunifolia  (Willd.) Borkh., enhances stomatal closure to confer drought tolerance in transgenic Arabidopsis  and apple. Frontiers in Plant Science, 2017, 8:33

[31] Tingting Sun, Mingjun Li, Yun Shao, Lingyan Yu, Fengwang Ma*. Comprehensive Genomic identification and eExpression analysis of the phosphate transporter (PHT) gene family in apple. Frontiers in Plant Science, 2017, 8:426

[32] Yanxiao Tan, Yingli Yang, Chao Li, Bowen Liang, Mingjun Li, Fengwang Ma*. Overexpression of MpCYS4 , a phytocystatin gene from Malus prunifolia  (Willd.) Borkh., delays natural and stress-induced leaf senescence in apple. Plant Physiology and Biochemistry, 2017, 115:219–228

[33] Na Wang, Tianli Guo, Ping Wang, Xun Sun, Yun Shao, Bowen Liang, Xin Jia, Xiaoqing Gong, Fengwang Ma*. Functional analysis of apple MhYTP1  and MhYTP2  genes in leaf senescence and fruit ripening. Scientia Horticulturae, 2017, 221:2332

[34] Na Wang, Zhiyong Yue, Ping Wang, Xun Sun, Xiaoqing Gong, Fengwang Ma*. Function of Malus prunifolia  WRKY6 transcription factor in response to different stresses. Biologia Plantarum, 2017,61 (2): 284292

[35] Na Wang, Xiaoqing Gong, Fengwang Ma*. Genome-wide identification of the radiation sensitivity protein-23 (RAD23) family members in apple ( Malus×domestica  Borkh.) and expression analysis of their stress responsiveness. Journal of Integrative Agriculture, 2017, 16(4): 820–827

[36] Tingting Sun, Dongfeng Jia, Linlin Huang, Yun Shao, Fengwang Ma*. Comprehensive genomic identification and expression analysis of thenucleobase-ascorbate transporter ( NAT ) gene family in apple. Scientia Horticulturae, 2016, 198:473481

[37] Yanxiao Tan, Xiaoyu Wei, Ping Wang, Xun Sun, Mingjun Li, Fengwang Ma*. A phytocystatin gene from Malus prunifolia  (Willd.) Borkh., MpCYS5 , confers salt stress tolerance and functions in endoplasmic reticulum stress response in Arabidopsis . Plant Molecular Biology Reporter, 2016, 34(1):62–75

[38] Chao Li, Bowen Liang, Cong Chang, Zhiwei Wei, Shasha Zhou, Fengwang Ma*. Exogenous melatonin improved potassium content in Malus  under different stress conditions. Journal of Pineal Research, 2016, 61(2):218229

[39] Ping Wang, Xun Sun , Xin Jia, Na Wang, Xiaoqing Gong, Fengwang Ma*. Characterization of an autophagy-related gene MdATG8i  from apple. Frontiers in Plant Science, 2016, 7:720

[40] Shasha Zhou, Shuangxun Ma, Mingjun Li, Cuiying Li, Xiaoqing Gong, Qingmei Guan, Yanxiao Tan, Yun Shao, Chao Li, Fengwang Ma*. Comprehensive genomic analysis and expression profiling of Argonaute gene family and examination of their regulatory roles in water-use efficiency and abiotic stress responses in apple. Acta Physiologiae Plantarum, 2016, 38(9):1–14

[41] Xuewei Li, Ling Kui, Jing Zhang, Yinpeng Xie, Liping Wang, Yan Yan, Na Wang, Jidi Xu, Cuiying Li, Wen Wang, Steve van Nocker, Yang Dong, Fengwang Ma*, Qingmei Guan*. Improved hybrid de novo genome assembly of domesticated apple ( Malus  x domestica ). Giga Science, 2016, 5:35(1–5)

[42] Chao Li, Dun-Xian Tan, Dong Liang, Cong Chang, Dongfeng Jia, Fengwang Ma*. Melatonin mediates the regulation of ABA metabolism, free-radical scavenging, and stomatal behavior in two Malus  species under drought stress. Journal of Experimental Botany, 2015, 66(3): 669–680

[43] Xiaoqian Wang, Cuiying Li, Dong Liang, Yangjun Zou, Pengmin Li, Fengwang Ma*. Phenolic compounds and antioxidant activity in red-fleshed apples. Journal of Functional Foods, 2015, 18:10861094

[44] Chao Li, Xiangkai Sun, Cong Chang, Dongfeng Jia, Zhiwei Wei, Cuiying Li, Fengwang Ma*. Dopamine alleviates salt-induced stress in Malus hupehensis . Physiologia Plantarum, 2015, 153(4):584602

[45] Ping Ma, Tuanhui Bai, Fengwang Ma*. Effects of progressive drought on photosynthesis and partitioning of absorbed light in apple trees. Journal of Integrative Agriculture, 2015, 14(4):681690

[46] Yali Li, Yanxiao Tan, Yun Shao, Mingjun Li, Fengwang Ma*. Comprehensive genomic analysis and expression profiling of diacylglycerol kinase gene family in Malus prunifoli a (Willd.) Borkh. Gene, 2015, 561(2) : 225234

[47] Ping Wang, Xun Sun, Na Wang, Dun-Xian Tan, Fengwang Ma*. Melatonin enhances the occurrence of autophagy induced by oxidative stress in Arabidopsis  seedlings. Journal of Pineal Research, 2015, 58(4):479489

[48] Shasha Zhou, Mingjun Li, Qingmei Guan, Fengli Liu, Sheng Zhang, Wei Chen, Lihua Yin, Yuan Qin, Fengwang Ma*. Physiological and proteome analysis suggest critical roles for the photosynthetic system for high water-use efficiency under drought stress in Malus . Plant Science, 2015, 236:44–60

[49] Yanxiao Tan, Mingjun Li, Fengwang Ma*. Overexpression of MpCYS2 , a phytocystatin gene from Malus prunifolia  (Willd.) Borkh., confers drought tolerance and protects against oxidative stress in Arabidopsis . Plant Cell, Tissue and Organ Culture, 2015, 123(1):15–27

[50] Zhiyong Yue, Hao Liu, Fengwang Ma*. The Malus  carotenoid cleavage dioxygenase 7 is involved in stress response and regulated by basic pentacysteine 1. Scientia Horticulturae, 2015, 192:264270

[51] Hongbo Zhao, Lingfei Xu, Tao Su, Yang Jiang, Lingyu Hu, Fengwang Ma*. Melatonin regulates carbohydrate metabolism and defenses against Pseudomonas syringae  pv. tomato DC3000 infection in Arabidopsis thaliana . Journal of Pineal Research, 2015, 59(1):109–119

[52] Ping Ma, Tuanhui Bai, Xiaoqian Wang, Fengwang Ma*. Effects of light intensity on photosynthesis and photoprotective mechanisms in apple under progressive drought. Journal of Integrative Agriculture 2015, 14(9): 17551766

[53] Hongbo Zhao, Tao Su, Liuqing Huo, Hongbin Wei, Yang Jiang, Lingfei Xu, Fengwang Ma*. Unveiling the mechanism of melatonin impacts on maize seedling growth: sugar metabolism as a case. Journal of Pineal Research, 2015, 59(2):255266

[54] Xiaoqian Wang, Zhiwei Wei, Fengwang Ma*. The effects of fruit bagging on levels of phenolic compounds andexpression by anthocyanin biosynthetic and regulatory genes in red-fleshed apples. Process Biochemistry, 2015, 50:17741782

[55] Ping Wang, Xun Sun, Zhiyong Yue, Dong Liang, Na Wang, Fengwang Ma*. Isolation and characterization of MdATG18a , a WD40-repeat autophagy-related gene responsive to leaf senescence and abiotic stress in Malus . Scientia Horticulturae, 2014, 165:5161

[56] Fengjuan Feng, Mingjun Li, Fengwang Ma*, Lailiang Cheng. The effects of bagging and debagging on external fruit quality, metabolites, and the expression of anthocyanin biosynthetic genes in Jonagold apple ( Malus domestica  Borkh.). Scientia Horticulturae, 2014, 165:123–131

[57] Xin Zhang, Yuan Qin, Dong Liang, Yangjun Zou, Fengwang Ma*. Enhancement of in vitro shoot regeneration from leaf explants of apple rootstock G.41. In Vitro Cellular & Developmental BiologyPlant, 2014, 50(2):263270

[58] Yanxiao Tan, Suncai Wang, Dong Liang, Mingjun Li, Fengwang Ma*. Genome-wide identification and expression profiling of the cystatin gene family in apple ( Malus domestica  Borkh.). Plant Physiology and Biochemistry, 2014, 79:8897

[59] Na Wang, Zhiyong Yue, Dong Liang, Fengwang Ma*. Genome-wide identification of members in the YTH domain-containing RNA-binding protein family in apple and expression analysis of their responsiveness to senescence and abiotic stresses. Gene, 2014, 538(2):292–305

[60] Juan Li, Mingjun Li, Dong Liang, Fengwang Ma*, Yushan Lei.  Comparison of expression pattern, genomic structure, and promoter analysis of the gene encoding GDP-l-galactose phosphorylase from two Actinidia  species. Scientia Horticulturae, 2014,169:206–213

[61] Tao Zhao, Hui Xia, Jingying Liu, Fengwang Ma*. The gene family of dehydration responsive element-binding transcription factors in grape ( Vitis vinifera ): genome-wide identification and analysis, expression profiles, and involvement in abiotic stress resistance. Molecular Biology Reports, 2014, 41(3):1577–1590

[62] Shan Wu, Dong Liang, Fengwang Ma*. Leaf micromorphology and sugar may contribute to differences in drought tolerance for two apple cultivars. Plant Physiology and Biochemistry, 2014, 80:249258

[63] Hui Xia, Shan Wu, Fengwang Ma*. Cloning and expression of two 9-cis-epoxycarotenoid dioxygenase genes during fruit development and under stress conditions from Malus . Molecular Biology Reports, 2014, 41(10):67956802

[64] Yanxiao Tan,Yuan Qin,Yali Li, Mingjun Li, Fengwang Ma*. Overexpression of MpGR-RBP1 , a glycine-rich RNA-binding protein gene from Malus prunifolia  (Willd.) Borkh., confers salt stress tolerance and protects against oxidative stress in Arabidopsis. Plant Cell, Tissue and Organ Culture, 2014, 119:635–646

[65] Ping Wang, Xun Sun, Yinpeng Xie, Mingjun Li, Wei Chen, Sheng Zhang, Dong Liang, Fengwang Ma*. Melatonin regulates proteomic changes during leaf senescence in Malus hupehensis . Journal of Pineal Research, 2014, 57(3):291307

[66] Yun Shao, Yuan Qin, Yangjun Zou, Fengwang Ma*. Genome-wide identification and expression profiling of the SnRK2  gene family in Malus prunifolia . Gene, 2014, 552(1):8797

[67] Meng Cui, Dong Liang, Fengwang Ma*. Molecular cloning and characterization of a cDNA encoding kiwifruit L-myo-inositol-1-phosphate synthase, a key gene of inositol formation. Molecular Biology Reports, 2013, 40(1):697705

[68] Juan Li, Mingjun Li, Dong Liang, Meng Cui, Fengwang Ma*. Expression patterns and promoter characteristics of the gene encoding Actinidia deliciosa  L-galactose-1-phosphate phosphatase involved in the response to light and abiotic stresses. Molecular Biology Reports, 2013, 40(2):1473–1485

[69] Juan Li, Meng Cui, Mingjun Li, Xiaoqian Wang, Dong Liang, Fengwang Ma*. Expression pattern and promoter analysis of the gene encoding GDP-D-mannose 3, 5-epimerase under abiotic stresses and applications of hormones by kiwifruit. Scientia Horticulturae, 2013, 150:187–194

[70] Mingyang Fu, Chao Li, Fengwang Ma*. Physiological responses and tolerance to NaCl stress in different biotypes of Malus prunifolia . Euphytica, 2013, 189(1):101109

[71] Tuanhui Bai, Cuiying Li, Chao Li, Dong Liang, Fengwang Ma*. Contrasting hypoxia tolerance and adaptation in Malus  species is linked to differences in stomatal behavior and photosynthesis. Physiologia Plantarum, 2013, 147(4):514523

[72] Ping Wang, Xun Sun, Chao Li, Zhiwei Wei, Dong Liang, Fengwang Ma*. Long-term exogenous application of melatonin delays drought-induced leaf senescence in apple. Journal of Pineal Research, 2013, 54(3):292302

[73] Lihua Yin, Ping Wang, Mingjun Li, Xiwang Ke, Cuiying Li, Dong Liang, Shan Wu, Xinli Ma, Chao Li, Yangjun Zou, Fengwang Ma*. Exogenous melatonin improves Malus  resistance to marssonina  apple blotch. Journal of Pineal Research, 2013, 54(4):426434

[74] Lihua Yin, Mingjun Li, Xiwang Ke, Cuiying Li, Yangjun Zou, Dong Liang, Fengwang Ma*. Evaluation of Malus  germplasm resistance to marssonina apple blotch. European Journal of Plant Pathology, 2013, 136(3):597602

[75] Changhai Liu, Chao Li, Dong Liang, Fengwang Ma*, Shuncai Wang, Ping Wang, Rongchao Wang. Aquaporin expression in response to water-deficit stress in two Malus  species: relationship with physiological status and drought tolerance. , 2013, 70(2):187197

[76] Xieping Sun, Hongli Yan, Xiaoyue Kang, Fengwang Ma*. Growth, gas exchange, and water-use efficiency response of two young apple cultivars to drought stress in two scion-one rootstock grafting system. Photosynthetica, 2013, 51(3):404410

[77] Chao Li, Zhiwei Wei, Dong Liang, Shasha Zhou, Yonghong Li, Changhai Liu, Fengwang Ma*. Enhanced salt resistance in apple plants overexpressing a Malus  vacuolar Na+/H+ antiporter gene is associated with differences in stomatal behavior and photosynthesis. Plant Physiology and Biochemistry, 2013, 70:164–173

[78] Fengjuan Feng, Mingjun Li, Fengwang Ma*, Lailiang Cheng. Phenylpropanoid metabolites and expression of key genes involved in anthocyanin biosynthesis in the shaded peel of apple fruit in response to sun exposure. Plant Physiology and Biochemistry, 2013, 69:54–61

[79] Juan Li, Dong Liang, Mingjun Li, Fengwang Ma*. Light and abiotic stresses regulate the expression of GDP-l-galactose phosphorylase and levels of ascorbic acid in two kiwifruit genotypes via light-responsive and stress-inducible cis -elements in their promoters. Planta, 2013, 238(3):535–547

[80] Ping Wang, Xun Sun, Cong Chang, Fengjuan Feng, Dong Liang, Lailiang Cheng, Fengwang Ma*. Delay in leaf senescence of Malus hupehensis  by long-term melatonin application is associated with its regulation of metabolic status and protein degradation. Journal of Pineal Research, 2013, 55(4): 424–434

[81] Lihua Yin, Yangjun Zou, Xiwang Ke, Dong Liang, Xuan Du, Yaoyao Zhao, Qiangqiang Zhang, Fengwang Ma*. Phenolic responses of resistant and susceptible Malus  plants inducedby Diplocarpon mali. Scientia Horticulturae, 2013, 164:1723

[82] Lihua Yin, Yangjun Zou, Mingjun Li, Xiwang Ke, Cuiying Li, Dong Liang, Fengwang Ma*. Resistance of Malus  plants to Diplocarpon mali infection is associated with the antioxidant system and defense signaling pathways. Physiological and Molecular Plant Pathology, 2013, 84:146–152

[83] Tuanhui Bai, Ping Ma, Cuiying Li, Rong Yin, Fengwang Ma*. Role of ascorbic acid in enhancing hypoxia tolerance in roots of sensitive and tolerant apple rootstocks. Scientia Horticulturae. 2013, 164:372379

[84] Meng Cui, Dong Liang, Shan Wu, Fengwang Ma*, Yushan Lei. Isolation and developmental expression analysis of L-myo-inositol-1-phosphate synthase in four Actinidia  species. Plant Physiology and Biochemistry, 2013, 73:351358

[85] Shuncai Wang, Dong Liang, Chao Li, Yonglu Hao, Fengwang Ma*, Huairui Shu. Influence of drought stress on the cellular ultrastructure and antioxidant system in leaves of drought-tolerant and drought-sensitive apple rootstocks. Plant Physiology and Biochemistry, 2012, 51:81–89

[86] Shuncai Wang, Rongchao Wang, Dong Liang, Fengwang Ma*, Huairui Shu. Molecular characterization and expression analysis of a glycine-rich RNA-binding protein gene from Malus hupehensis  Rehd. Molecular Biology Reports, 2012, 39(4):41454153

[87] Pengmin Li, Fengwang Ma*. Different effects of light irradiation on the photosynthetic electron transport chain during apple tree leaf dehydration. Plant Physiology and Biochemistry, 2012, 55:1622

[88] Binghua Liu, Liang Cheng, Fengwang Ma*, Yangjun Zou, Dong Liang. Growth, biomass allocation, and water use efficiency of 31 apple cultivars grown under two water regimes. Agroforestry Systems, 2012, 84(2):117129

[89] Binghua Liu, Liang Cheng, Mingjun Li, Dong Liang, Yangjun Zou, Fengwang Ma*.  Interactive effects of water and nitrogen supply on growth, biomass partitioning, and water-use efficiency of young apple trees. African Journal of Agricultural Research, 2012, 7(6):978–985

[90] Shouguo Shi, Fengwang Ma*, Yonghong Li, Fengjuan Feng, Zengzhen Shang. Overexpression of L-galactono-1, 4-lactone dehydro ( GLDH ) in Lanzhou lily ( Lilium davidii var. unicolor)  via particle bombardment-mediated transformation. In Vitro Cell. Dev. Biol.—Plant, 2012, 48(1):1–6

[91] Tao Zhao, Dong Liang, Ping Wang, Jingying Liu, Fengwang Ma*. Genome-wide analysis and expression pro?ling of the DREB transcription factor gene family in Malus  under abiotic stress. Molecular Genetics and Genomics, 2012, 287(5):423–436

[92] Dong Liang, Meng Cui, Shan Wu, Fengwang Ma*. Genomic structure, sub-cellular localization, and promoter analysis of the gene encoding sorbitol-6-phosphate dehydrogenase from apple. Plant Molecular Biology Reporter, 2012, 30(4):904914

[93] Binghua Liu, Mingjun Li, Liang Cheng, Dong Liang, Yangjun Zou, Fengwang Ma*. Influence of rootstock on antioxidant system in leaves and roots of young apple trees in response to drought stress. Plant Growth Regulation, 2012, 67(3):247256

[94] Ping Wang, Lihua Yin, Dong Liang, Chao Li, Fengwang Ma*, Zhiyong Yue. Delayed senescence of apple leaves by exogenous melatonin treatment: toward regulating the ascorbateglutathione cycle. Journal of Pineal Research, 2012, 53(1):1120

[95] Chao Li, Ping Wang, Zhiwei Wei, Dong Liang, Changhai Liu, Lihua Yin, Dongfeng Jia, Mingyang Fu, Fengwang Ma*. The mitigation effects of exogenous melatonin on salinity-induced stress in Malus hupehensis . Journal of Pineal Research, 2012, 53(3):298306

[96] Binghua Liu, Liang Cheng, Fengwang Ma*, Dong Liang and Yangjun Zou. Influence of rootstock on drought response in young Gale Gala apple ( Malus domestica  Borkh.) trees. Journal of the Science of Food and Agriculture, 2012, 92(12) :24212427

[97] Binghua Liu, Liang Cheng, Dong Liang, Yangjun Zou, Fengwang Ma*. Growth, gas exchange, water-use efficiency, and carbon isotope composition of Gale Gala apple trees grafted onto 9 wild Chinese rootstocks in response to drought stress. Photosynthetica, 2012, 50 (3): 401–410

[98] Xieping Sun, Hongli Yan, Ping Ma, Binghua Liu, Yangjun Zou, Dong Liang, Fengwang Ma*, Pingmin Li. Responses of young Pink lady apple to alternate deficit irrigation following long-term drought: growth, photosynthetic capacity, water-use efficiency, and sap flow. Photosynthetica, 2012, 50(4):501–507

[99] Changhai Liu, Chao Li, Dong Liang, Zhiwei Wei, Shasha Zhou, Rongchao Wang,  Fengwang Ma*. Differential expression of ion transporters and aquaporins in leaves may contribute to different salt tolerance in Malus  species. Plant Physiology and Biochemistry, 2012, 58:159–165

[100] ChangSheng Chen, Di Zhang, YaQiangWang, PengMin Li*, FengWang Ma. Effects of fruit bagging on the contents of phenolic compounds in the peel and flesh of 'Golden Delicious', 'Red Delicious', and 'Royal Gala' apples. Scientia Horticulturae, 2012, 142:68–73

[101] Changsheng Chen, Di Zhang, Pengmin Li*, Fengwang Ma. Partitioning of absorbed light energy differed between the sun-exposed side and the shaded side of apple fruits under high light conditions. Plant Physiology and Biochemistry, 2012, 60:1217

[102] Mingyang Fu, Fengwang Ma*. Characterization  of  the  genetic  relationships  among biotypes  of   Malus  prunifolia  using  simple  sequence  repeat  marker. Scientia  Horticulturae, 2012, 146:169174

[103] Dong Liang, Hui Xia, Shan Wu, Fengwang Ma*. Genome-wide identi?cation and expression pro?ling of dehydrin gene family in Malus domestica . Molecular Biology Reports, 2012, 39(12):10759–10768.

[104] YuHua Ma, FengWang Ma*, YongHong Wang, JunKe Zhang. The responses of the enzymes related with ascorbateglutathione cycle during drought stress in apple leaves. Acta Physiologiae Plantarum, 2011, 33:173180

[105] Tuanhui Bai, Rong Yin, Cuiying Li, Fengwang Ma*, Zhiyong Yue. Comparative Analysis of endogenous hormones in leaves and roots of two contrasting Malus  species in response to hypoxia stress. Journal of Plant Growth Regulation, 2011, 30(2):119127

[106] Shuncai Wang, Dong Liang, Shouguo Shi, Fengwang Ma*, Huairui Shu, Rongchao Wang. Isolation and characterization of a novel drought responsive gene encoding a glycine-rich RNA-binding protein in Malus prunifolia  (Willd.) Borkh. Plant Molecular Biology Reporter, 2011, 29(1):125–134

[107] Mingjun Li, Xuesen Chen, Pingping Wang, Fengwang Ma*. Ascorbic acid accumulation and expression of genes involved in its biosynthesis and recycling in developing apple fruit. Journal of American Society for Horticultural Science, 2011, 136(4):231238

[108] Yanlei Wang, Fengwang Ma*, Mingjun Li, Dong Liang, Jun Zou. Physiological responses of kiwifruit plants to exogenous ABA under drought conditions. Plant Growth Regulation, 2011, 64(1):6374

[109] PengMin Li, GuoRong Du, FengWang Ma*. Phenolics concentration and antioxidant capacity of different fruit tissues of astringent versus non-astringent persimmons. Scientia Horticulturae. 2011, 129(4):710714

[110] Tuanhui Bai, Cuiying Li, Fengwang Ma*, Fengjuan Feng, Huairui Shu. Responses of growth and antioxidant system to root-zone hypoxia stress in two Malus  species. Plant and Soil, 2010, 327(2):95105

[111] Jianmei Wei, Fengwang Ma*, Shouguo Shi, Xiudong Qi, Xiangqiu Zhu, Junwei Yuan. Changes and postharvest regulation of activity and gene expression of enzymes related to cell wall degradation in ripening apple fruit. Postharvest Biology and Technology, 2010, 56(2):147–154

[112] Mingjun Li, Fengwang Ma*, Chunmiao Guo, Jun Liu. Ascorbic acid formation and profiling of genes expressed in its synthesis and recycling in apple leaves of different ages. Plant Physiology and Biochemistry, 2010, 48(4): 216224

[113] Cuiying Li, Tuanhui Bai, Fengwang Ma*, Mingyu Han. Hypoxia tolerance and adaptation of anaerobic respiration to hypoxia stress in two Malus  species. Scientia Horticulturae, 2010, 124(2): 274279

[114] Yonghong Li, Yanzi Zhang, Fengjuan Feng, Dong Liang, Lailiang Cheng, Fengwang Ma*, Shouguo Shi. Overexpression of a Malus  vacuolar Na+/H+ antiporter gene ( MdNHX1 ) in apple rootstock M.26 and its influence on salt tolerance. Plant Cell, Tissue and Organ Culture, 2010, 102(3): 337–345

[115] Rong Yin, Tuanhui Bai, Fengwang Ma*, Xinjuan Wang, Yonghong Li, Zhiyong Yue. Physiological responses and relative tolerance by Chinese apple rootstocks to NaCl stress. Scientia Horticulturae, 2010, 126(1):247252

[116] Xiaowei Ma, Fengwang Ma*, Cuiying Li, Yinfa Mi, Tuanhui Bai, Huairui Shu. Biomass accumulation, allocation, and water-use efficiency in 10 Malus  rootstocks under two watering regimes. Agroforestry Systems, 2010, 80(2): 283294

[117] Mingjun Li, Fengwang Ma*, Jun Liu, Juan Li. Shading the whole vines during young fruit development decreases ascorbate accumulation in kiwi. Physiologia Plantarum, 2010, 140(3):225237

[118] Mingjun Li, Fengwang Ma*, Dong Liang, Juan Li, Yanlei Wang. Ascorbate biosynthesis during early fruit development is the main reason for its accumulation in kiwi. PLoS One, 2010, 5(12):e14281

[119] Guorong Du, Mingjun Li, Fengwang Ma*, Dong Liang. Antioxidant capacity and the relationship with polyphenol and vitamin C in Actinidia  fruits. Food Chemistry, 2009, 113(2):557562

[120] Ru Bai, Xin Zhao, Fengwang Ma*. Identification and bioassay of allelopathic substances from the root exudates of Malus prunifolia . Allelopathy Journal, 2009, 23(2):477484

[121] Tuanhui Bai, Cuiying Li, Fengwang Ma*, Huairui Shu, Mingyu Han. Exogenous salicylic acid alleviates growth inhibition and oxidative stress induced by hypoxia stress in Malus robusta  Rehd. Journal of Plant Growth Regulation, 2009, 28(4):358366

[122] Mingjun Li, Fengwang Ma*, Peifen Shang, Min Zhang, Changming Hou, Dong Liang. Influence of light on ascorbate formation and metabolism in apple fruits. Planta, 2009, 230(1):3951

[123] Mingjun Li, Dong Liang, Fei Pu, Fengwang Ma*, Changming Hou, Tao Lu. Ascorbate levels and the activity of key enzymes in ascorbate biosynthesis and recycling in the leaves of 22 Chinese persimmon  cultivars. Scientia Horticulturae, 2009, 120(2):250256

[124] Ru Bai, Fengwang Ma*, Dong Liang, Xin Zhao. Phthalic acid induces oxidative stress and alters the activity of some antioxidant enzymes in roots of Malus prunifolia . Journal of Chemical Ecology, 2009, 35(4):488494

[125] MingJun Li, FengWang Ma*, Min Zhang, Fei Pu. Distribution and metabolism of ascorbic acid in apple fruits( Malus domestica  Borkh cv. Gala). Plant Science, 2008, 174 (6):606612

[126] Xiaowei Ma, Fengwang Ma*, Yinfa Mi, Yuhua Ma, Huairui Shu. Morphological and physiological responses of two contrasting Malus  species to exogenous abscisic acid application. Plant Growth Regulation, 2008, 56(1):7787

[127] YuHua Ma, FengWang Ma*, JunKe Zhang, MingJun Li, YongHong Wang, Dong Liang. Effects of high temperature on activities and gene expression of enzymes involved in ascorbateglutathione cycle in apple leaves. Plant Science, 2008, 175(6):762766

[128] Fengwang Ma, Lailiang Cheng. Exposure of the shaded side of apple fruit to full sun leads to upregulation of both xanthophyll cycle and the ascorbate-glutathione cycle. Plant Science, 2004, 166(6):14791486

[129] Lailiang Cheng, Fengwang Ma. Diurnal operation of the xanthophyll cycle and the antioxidant system in apple peel. Journal of American Society for Horticultural Science, 2004, 129(3):313320

[130] Fengwang Ma, Lailiang Cheng. The exposed peel of apple fruit has higher xanthophyll cycle-dependent thermal dissipation and antioxidants of the ascorbate-glutathione pathway than the shaded peel. Plant Science, 2003, 165(4):819827

[131] 马春花, 马锋旺*, 李明军, 韩明玉, 束怀瑞. 不同叶龄苹果叶片抗坏血酸含量与其代谢相关酶活性的比较. 园艺学报, 2007, 34(4):995-998

[132] 白团辉, 马锋旺*, 李翠英, 束怀瑞, 韩明玉. 水杨酸对根际低氧胁迫八棱海棠幼苗活性氧代谢的影响. 园艺学报, 2008, 35(2):163-168

[133] 白团辉, 马锋旺*, 李翠英, 束怀瑞, 韩明玉, . 不同苹果砧木对根际低氧胁迫的生理响应及耐性分析. 中国农业科学, 2008, 41(12):4140-4148

[134] 侯长明, 李明军, 马锋旺*, 梁东, 杜国荣. 猕猴桃果实发育过程中AsA代谢产物积累及相关酶活性的变化. 园艺学报, 2009, 36(9):1269-1276

[135] 魏建梅, 马锋旺*. 苹果果实β-GalLOX活性变化特性及其与果实软化的关系. 园艺学报, 2009, 36(5):631-638

[136] 李明军, 高静, 马锋旺*, 梁东, 侯长明. 苹果果实 GalDH GalLDH 基因的表达与AsA的关系. 中国农业科学, 2010, 43(2):351-357

[137] 梁东, 吴钐, 王素芳, 马锋旺*. 苹果山梨醇脱氢酶基因家族的克隆及表达分析. 中国农业科学, 2012, 45(1):102-110

[138] 王顺才, 梁东, 马锋旺*. 平邑甜茶金属硫蛋白基因 MhMT2 的克隆和表达分析. 中国农业科学, 2012, 45(14):2904-2912

4)审定品种

 

[1] 苹果新品种‘秦蜜’. 1完成人. 陕西省果树品种审定委员会, 2016.

[2] 苹果新品种‘秦脆’. 1完成人. 陕西省果树品种审定委员会, 2016.

[3] 苹果新品种‘美味’. 1完成人. 陕西省果树品种审定委员会, 2014.

[4] 苹果新品种‘黄冠’. 2完成人. 陕西省果树品种审定委员会, 2014.

[5] 苹果新品种‘皮诺娃’. 5完成人. 陕西省果树品种审定委员会, 2014.

[6] 苹果新品种‘红盖露’. 1完成人. 陕西省果树品种审定委员会, 2008.

[7] 苹果新品种‘凯蜜欧’. 1完成人. 陕西省果树品种审定委员会, 2008.

[8] 苹果新品种‘蜜脆’. 1完成人. 陕西省果树品种审定委员会, 2006.

 

 

副主任:徐炎

1.基本信息

1) 个人简况

徐炎,男,汉族,中共党员,西北农林科技大学果树学教授;博士研究生导师;现任园艺学院副院长。2010年入选教育部“新世纪优秀人才支持计划”。兼任陕西省青年创业导师协会理事,兼任2018-2022年教育部高等学校植物生产类专业教学指导委员会委员园艺(含茶学)类教学指导分委员会委员。2108年获“陕西省科技工作者创新创业大赛银奖”。

2) 教育经历

1991.9-1995.7:河南科技学院园艺系园艺专业学习,获学士学位。

1997.9-2000.12:西北农林科技大学园艺学院攻读硕士学位,获硕士学位。

2001.9-2006.4:西北农林科技大学园艺学院攻读博士学位,获博士学位。

3) 工作经历

(1) 2016.01-2016.02: 澳大利亚阿德莱德大学农业、食品与葡萄酒学院做访问学者。

(2) 2014.12-至今:西北农林科技大学园艺学院教授。

(3) 2011.03-2011.08: 奥地利维也纳自然资源与应用生命科学大学应用植物科学与生物技术系做博士后研究。

(4) 2009.01-2013.12:西北农林科技大学园艺学院副教授。

(5) 2007.05-2008.10: 北京生命科学研究所做博士后研究。

(6) 2006.04-2007.4: 美国耶鲁大学分子、细胞和发育生物学系做博士后研究。

(7) 2001.02-2005.12: 西北农林科技大学园艺学院讲师。

2. 研究概述

本实验室的研究兴趣主要是野生葡萄如何感受并响应葡萄霜霉病病原真菌胁迫,特别是野生葡萄在病原真菌胁迫条件下体内抗病信号转导和抗病基因的调节。主要研究内容是分析霜霉菌致病机理与利用效应因子蛋白鉴定野生葡萄抗病相关基因;克隆野生葡萄重要抗病基因和关键作用元件;利用生物化学试验体外分析目的基因的功能,并利用模式植物研究植物感受病原真菌胁迫信号过程中所发生的遗传和分子特性的变化。目的是为了阐明野生葡萄响应病原真菌胁迫的信号途径,并鉴定一些具有潜在功能的能够提高作物适应病原真菌胁迫的关键作用元件;利用鉴选的抗逆种质资源开展育种利用研究和新种质创制。

3. 开设课程

承担本科生《园艺植物生物技术》、《果树育种学》等本科生课程的教学工作;合作承担硕士、博士研究生《现代生物技术》、《园艺学专题讲座》课程。指导在站博士后1名,在读博士研究生8名,硕士研究生11名。

主要学术成果

1997年以来,一直从事葡萄种质资源评价与遗传育种研究工作。主持国家重点研发计划课题1项,国家自然科学基金(面上、青年基金)6项,其他省部级项目10余项。获陕西省科学技术壹等奖1项(第五完成人);参编专著2部,参编园艺专业实验教材2本;主持陕西省高等学校创新创业教育项目2项。

主持科研项目情况

1)国家重点研发计划课题“果树应答真菌病害的分子机制与调控”(2018YFD1000307),2018.07-2022.12.

2)陕西省重点研发计划项目子课题“玫瑰香型酿酒葡萄种质资源收集与优良品系选育”(2018ZDXMNY053-1),2018.01-2020.12.

3)国家自然科学基金面上基金项目“葡萄霜霉菌效应蛋白RxLR53与中国野生葡萄互作因子的鉴定和功能研究(31872054)”,2019.01-2022.12.

4)国家自然科学基金面上基金项目“葡萄霜霉菌RxLR31154效应因子与中国野生葡萄OEE2蛋白互作生物学功能研究(31672115)”,2017.01-2020.12.

5)国家自然科学基金面上基金项目“葡萄霜霉菌效应因子筛选及中国野生葡萄抗霜霉病基因鉴定(31471844)”,2015.01-2018.12.

6)国家自然科学基金面上基金项目“白粉病诱导的中国野生华东葡萄VpPR10蛋白基因定位表达研究(31272125)”,2013.01-2016.12.

7)国家自然科学基金青年基金项目“中国野生葡萄PR10蛋白功能及抗病原真菌活性分析(30700547)”,2008.01-2010.12.

8)国家自然科学基金专项基金项目“中国野生葡萄紫檀芪生物合成机理解析(30940051)”,2010.01-2010.12.

9)教育部“新世纪优秀人才支持计划”项目“中国野生葡萄VpPR10蛋白调节植物细胞死亡机理研究(NCET-10-0692)”,2011.01-2013.12.

10)国家林业局“948”项目“葡萄砧木新品种和优质苗木繁育技术引进(2013-4-41)”,2013.01-2015.12.

11)农业部“公益性行业(农业)”科研专项子课题“主要果树砧木收集、评价与筛选(201203075-08)”,2012.01-2016.12.

12)农业部“948”(重大专项滚动)项目子课题“重要果树基因资源发掘与创新的关键技术合作研发(2011-G21)”,2011.01-2016.12.

13)农业部“948”(重大专项滚动)项目子课题“南亚(孟加拉、巴基斯坦、斯里兰卡)农业生物资源引进与农业技术需求和政策信息收集研究”(2016-X11,2016.01-2017.12.

14)农业部“2012年物种资源保护”项目“陕西省农业野生植物资源调查”,2012.01-2012.12.

15)陕西省科技统筹创新工程计划项目“葡萄优异种质资源创新与高效栽培技术研究(2013KTCL02-01)”,2014.01-2016.12.

发表的主要研究论文(通讯作者或第一作者)

1Weirong Xu; Fuli Ma; Ruimin Li; Qi Zhou; Wenkong Yao; Yuntong Jiao; Chaohong Zhang; Jianxia Zhang; Xiping Wang; Yan Xu; Yue-Jin Wang.VpSTS29/STS2 enhances fungal tolerance in grapevine through a positive feedback loop.  Plant, Cell & Environment , 2019,DOI: 10.1111/pce.13600.

2Tiemei Li, Xin Cheng, Yuting Wang, Xiao Yin, Zhiqian Li, Ruiqi Liu, Guotian Liu, Yuejin Wang, Yan Xu.Genome-wide analysis of glyoxalase-like gene families in grape ( Vitis vinifera  L.) and their expression profiling in response to downy mildew infection. BMC Genomics ,  2019, 20362. DOI: 10.1186/s12864-019-5733-y.

3Rui-qi Liu, Kai Weng, Meng-ru Dou, Ting-ting Chen, Xiao Yin, Zhi-qian Li, Tie-mei Li, Chen Zhang, Gao-qing Xiang, Guo-tian Liu, Yan Xu.Transcriptomic Analysis of Chinese wild Vitis pseudoreticulata in Response to Plasmopara viticola . Protoplasma , 2019, DOI: 10.1007/s00709-019-01387-x.

4Hang Su, YunTong Jiao, FangFang Wang, YueE Liu, WeiLi Niu, GuoTian Liu, Yan Xu. Overexpression of VpPR10.1 by an efficient transformation method enhances downy mildew resistance in V. vinifera . Plant Cell Reports , 2018, 375:819-832.

5Tiemei Li, Zhiqian Li, Xiao Yin, Yuejin Wang, Yan Xu. Improved in vitro embryo development of F1 progeny of Delight×Ruby seedless using putrescine and marker-assisted selection.  In Vitro Cellular & Developmental Biology - Plant , 2018, 54:291-301.

6Hui Ma; Gaoqing Xiang; Zhiqian Li; Yuting Wang; Mengru Dou; Li Su; Xiao Yin; Ruiqi Liu; Yuejin Wang; Yan Xu. Grapevine VpPR10.1 functions in resistance to Plasmopara viticola through triggering a cell death-like defense response by interacting with VpVDAC3. Plant Biotechnology Journal , 2018, 16:1488-1501.

7Zhiqian Li, Chen Zhang, Yurui Guo, Weili Niu, Yuejin Wang, Yan Xu. Evolution and expression analysis reveal the potential role of the HD-Zip gene family in regulation of embryo abortion in grapes ( Vitis vinifera  L.) embryo abortion regulation. BMC Genomics , 2017, 18:744.

8Jie Wang, Wenkong Yao, Lei Wang, Fuli Ma, Weihuo Tong Chen Wang, Rui Bao, Changyue Jiang, Yazhou Yang, Jianxia Zhang, Yan Xu, Xiping Wang, Chaohong Zhanga, Yuejin Wang. Overexpression of VpEIFP1 , a novel F-box/Kelch-repeat protein from wild Chinese Vitis pseudoreticulata , confers higher tolerance to powdery mildew by inducing thioredoxinz proteolysis. Plant Science , 2017 263:142-155.

(9Ruimin Li, Xiaoqing Xie, Fuli Ma, Dan Wang, Lan Wang, Jianxia Zhang,Yan Xu, Xiping Wang, Chaohong Zhang, Yuejin Wang.Resveratrol accumulation and its involvement in stilbene synthetic pathway of Chinese wild grapes during berry development using quantitative proteome analysis. Scientific Reports , 2017, 7: 9295, DOI:10.1038/s41598-017-10171-x 11

10Zhen-Hua Cui, WenLu Bi, XinYi Hao, PengMin Li, Ying Duan, M. Andrew Walker, Yan Xu and QiaoChun Wang. Drought Stress Enhances Up-Regulation of Anthocyanin Biosynthesis in Grapevine leafroll-associated virus 3-Infected in vitro Grapevine ( Vitis vinifera ) Leaves.  Plant Disease , 2017, 101(9):1606-1615.

11Xiao Yin, Rui-Qi Liu, Hang Su, Li Su, Yurui Guo, Zi-Jia Wang, Wei Du, Mei-Jie Li, Xi Zhang, Yue-Jin Wang, Guo-Tian Liu, Yan Xu.Pathogen development and host responses to  Plasmopara viticola in resistant and susceptible grapevines: an ultrastructural study. Horticulture Research , 2017 (4):17033.

12Yuntong Jiao, Zhiqian Li, Keyao Xu, Yurui Guo, Chen Zhang, Tiemei Li, Yaxing Jiang , Guotian Liu, Yan Xu. Study on improving plantlet development and embryo germination rates in vitro embryo rescue of seedless grapevine.  New Zealand Journal of Crop & Horticultural Science , 2017, 1-15.

13XinYi Hao, WenLu Bi, ZhenHua Cui, C.Pan, Yan Xu & QiaoChun Wang. Development, histological observations and Grapevine leaf roll-associated virus-3 localization of in invitro  grapevine micrografts. Annals of Applied Biology , 2017, 170 (3): 379-390.

14Wenkong Yao, Lei Wang, Jie Wang, Fuli Ma, Yazhou Yang, Chen Wang, Weihuo Tong, Jianxia Zhang, Yan Xu, Xiping Wang, Chaohong Zhang and Yuejin Wang.  VpPUB 24, a novel gene from Chinese grapevine, Vitis   pseudoreticulata , targets VpICE1 to enhance cold tolerance.  Journal of Experimental Botany , 2017, 68 (11):2933–2949.

15Lei Wang, Xiaoqing Xie, Wenkong Yao, Jie Wang, Fuli Ma, Chen Wang, Yazhou Yang,Weihuo Tong, Jianxia Zhang, Yan Xu, Xiping Wang, Chaohong Zhang and Yuejin Wang. RING-H2-type E3 gene VpRH2 from Vitis pseudoreticulata  improves resistance to powdery mildew by interacting with VpGRP2A. Journal of Experimental Botany , 2017, 68 (7): 1669–1687.

16Siyan Cheng, Xiaoqing Xie, Yan Xu, Chaohong Zhang, Xiping Wang, Jianxia Zhang, Yuejin Wang. Genetic transformation of a fruit-specific, highly expressed stilbene synthase gene from Chinese wild Vitis quinquangularis .  Planta , 2016, 243:1041-1053.

17Lijuan Han, Kai Weng, Hui Ma, Gaoqing Xiang, Zhiqian Li, Yuejin Wang, Guotian Liu and Yan Xu. Identification and Characterization of  Erysiphe necator -Responsive MicroRNAs in Chinese Wild Vitis   pseudoreticulata  by High-Throughput Sequencing. Frontiers in Plant Science , 2016, 7:621.

18Zhenhua Cui, Wenlu Bi, Xinyi Hao, Yan Xu, Pengmin Li, Andrew Walker, Qiaochun Wang. Responses of in vitro-grown plantlets ( Vitis vinifera ) to Grapevine leafroll-associated virus-3 and PEG-induced drought stress. Frontiers in Physiology , 2016, 7:203.

19Lingmin Dai, Dan Wang, Xiaoqing Xie, Chaohong Zhang, Xiping Wang, Yan Xu, Yuejin Wang, Jianxia Zhang. The Novel Gene VpPR4-1 from Vitis pseudoreticulata  Increases Powdery Mildew Resistance in Transgenic Vitis vinifera  L.  Frontiers in Plant Science , 2016, 7:695.

20Bihai Shi, Cui Zhang, Caihuan Tian, Jin Wang, Quan Wang, Tengfei Xu, Yan Xu, Carolyn Ohno, Robert Sablowski, Marcus G. Heisler, Klaus Theres, Ying Wang, and Yuling Jiao. Two-step Regulation of a Meristematic Cell Population Acting in Shoot Branching in Arabidopsis . PLoS Genetics , 2016, Jul 11;12(7):e1006168.

21Zhiqian Li, Tiemei Li, Yuejin Wang, Yan Xu. Breeding new seedless grapes using in ovulo embryo rescue and marker-assisted selection. In Vitro Cellular and Developmental Biology , 2015, 51:241-248.

22Ruiqi Liu, Lan Wang, Jiali Zhu, Tingting Liu, Yuejin Wang, Yan Xu. Histological responses to downy mildew in resistant and susceptible grapevines. Protoplasma . 2015, 252(1): 259-270.

23Z.-H. Cui, W.-L. Bi, C. Pan, Y. Xu and Q.-C. Wang. Abiotic stress improves in vitro biological indexing of Grapevine leaf roll-associated virus-3 in red grapevine cultivars. Australian Journal of Grape and Wine Research , 2015, 21:490-495.

24Yan Xu, Yuejin Wang. Introduction of Application of Chinese Wild Grapes Species. 10th International Conference on Grapevine Breeding and Genetics , 2010/8/1-2010/8/5, pp 49-56, Geneva, NY, 2014.

25Lan Wang, Jinyu Wei, Ying Zou, Keyao Xu, Yuejin Wang, Lu Cui,Yan Xu. Molecular Characteristics and Biochemical Functions of VpPR10s from Vitis pseudoreticulata Associated with Biotic and Abiotic Stresses. I nternational Journal of Molecular Sciences , 2014, 15, 19162-19182.

26Kai Weng, ZhiQian Li, RuiQi Liu, Lan Wang, Yuejin WangYan Xu. RNA-Seq Analysis of the Transcriptome of Vitis Pseudoreticulata in Response to Powdery Mildew Infection. Horticulture Research 20141, 14049.

27TengFei Xu, XiaoChen Zhao, YunTong Jiao, JinYu Wei, Lan Wang, Yan Xu. A pathogenesis related protein, VpPR-10.1, from Vitis pseudoreticulata : An insight of its mode of antifungal activity. PLoS ONE . 2014, 9(4):e95102.

28Yihe Yu,Weirong Xu, JieWang, Lei Wang, Wenkong Yao, Yazhou Yang, Yan Xu, Fuli Ma, Yangjian Du and Yuejin Wang. The Chinese wild grapevine ( Vitis pseudoreticulata ) E3 ubiquitin ligase  Erysiphe necator -induced RING ?nger protein 1 (EIRP1) activates plant defense responses by inducing proteolysis of the VpWRKY11 transcription factor. New Phytologist . 2013, 200(3):834-846.

29XIN GUAN, HEQING ZHAO, YAN XU, YUEJIN WANG. Studies on gene transfer of shoot apical meristems by Agrobacterium -mediated genetic transformation in a progeny of Chinese wild Vitis pseudoreticulata .  Vitis 2013, 52 (4)185-192.

30TengFei Xu, Jiang Xiang, FengJu Li, TieMei Li, YiHe Yu, YueJin Wang, Yan Xu. Screening proteins interacting with VpPR10.1 of Chinese wild grapevine using the yeast-two hybrid system. Acta Physiologiae Plantarum . 2013, 35(8): 2355-2364.

31J. Xiang, R. Q. Liu, T. M. Li, L. J. Han, Y. Zou, T. F. Xu, J. Y. Wei, Y. J. Wang, Y. Xu. Isolation and Characterization of Two VpYABBY  Genes from Chinese Wild Vitis pseudoreticulata .   Protoplasma . 2013, 250:13151325.

32Mingyang He, Yan Xu, Jiangling Cao, Ziguo Zhu, Yuntong Jiao, Yuejin Wang, Xin Guan, Yazhou Yang, Weirong Xu, Zhenfang Fu. Subcellular localization and functional analyses of a PR10 protein gene from Vitis pseudoreticulata  in response to Plasmopara viticola  infection. Protoplasma . 2013, 250:129-140.

33Ziguo Zhu, Jiangli Shi, Weirong Xu, Huie Li, Mingyang He, Yan Xu, Tengfei Xu, Yazhou Yang, Jiangling Cao, Yuejin Wang. Three ERF transcription factors from Chinese wild grapevine Vitis pseudoreticulata  participate in different biotic and abiotic stress-responsive pathways. Journal of Plant Physiology . 2013, 170923-933.

34Yihe Yu, Weirong Xu, Jie Wang, Lei Wang, Wenkong Yao, Yan Xu, Jiahua Ding, Yuejin Wang. A core functional region of the RFP1 promoter from Chinese wild grapevine is activated by powdery mildew pathogen and heat stress. Planta . 2013, 237:293303.

35Heqing Zhao, Xin Guan, Yan Xu, Yuejin Wang. Characterization of novel gene expression related to Glyoxal oxidase  by agro-infiltration of the leaves of accession Baihe-35-1 of Vitis pseudoreticulat a.   Protoplasma .2013, 250:765777.

36Yazhou Yang, Mingyang He, Ziguo Zhu, Shuxiu Li, Yan Xu, Chaohong Zhang, Stacy D Singer, Yuejin Wang. Identification of the dehydrin gene family from grapevine species and analysis of their responsiveness to various forms of abiotic and biotic stress. BMC Plant Biology  2012, 12:140 DOI: 10.1186/1471-2229-12-140.

37Q. Zhou, H. Gao, M.Wang, Y. Xu, Y. Z. Guo, Y. Z. Wan, Z. Y. Zhao. Characterization of defense-related genes in theQinguanapple in response to Marssonina coronaria . South African Journal of Botany .  2012, DOI:10.1016/j.sajb.2012.01.005.

38Yan Xu, Tengfei Xu, Xiaochen Zhao, Ying Zou, Zhiqian Li, Fengju Li, Jiang Xiang, Yuejin Wang. Co-expression of VpROMT  gene from Chinese wild Vitis pseudoreticulata with VpSTS  in tobacco plants and its effects on the accumulation of pterostilbene. Protoplasma . 2012, 249: 819-833.

39Yihe Yu, Weirong Xu, Shengyi Wang, Yan Xu, Hui'e Li, Yuejin Wang, Shuxiu Li. VpRFP1 , a novel C4C4-type RING finger protein gene from Chinese wild Vitis pseudoreticulata , functions as a transcriptional activator in defence response of grapevine. Journal of Experimental Botany . 2011, 62(15): 5671–5682.

40Xin Guan, Heqing Zhao, Yan Xu, Yuejin Wang. Transient expression of glyoxal oxidase from the Chinese wild grape Vitis pseudoreticulata can suppress powdery mildew in a susceptible genotype. Protoplasma . 2011, 248: 415-423.

41Weirong Xu, Yihe Yu, Qi Zhou, Jiahua Ding, Lingmin Dai, Xiaoqing Xie, Yan Xu, Chaohong Zhang, Yuejin Wang. Expression pattern, genomic structure and promoter analysis of the gene encoding stilbene synthase from Chinese wild Vitis pseudoreticulata.   Journal of Experimental Botany . 2011, 62(8):2745-2761.

42Yan Xu, Hao Yu, Mingyang He, Yazhou Yang, Yuejin Wang. Isolation and expression analysis of a novel pathogenesis-related protein 10 gene from Chinese wild  Vitis pseudoreticulata  induced by  Uncinula necator.   Biologia . 2010, 65 (4): 653-659.

43Huie LiYan XuYu XiaoZiguo ZhuXiaoqing XieHeqing ZhaoYuejin Wang. Expression and functional analysis of two genes encoding transcription factors, VpWRKY1 and VpWRKY2 , isolated from Chinese wild Vitis pseudoreticulata . Planta . 2010, 232: 1325-1337.

44Yan Xu, Yue-jin Wang. Construction of a cDNA Library of Vitis pseudoreticulata  native to China inoculated with Uncinula necator  and the analysis of potential defence-related expressed sequence tags (ESTs). South African Journal of Enology and Viticulture . 2009, 301):65-71.

45Yan Xu, Yue-jin Wang. Molecular cloning and characterization of novel heat shock protein 90 gene from a wild Vitis pseduoreticulata  native to China.  Biologia . 2009, 64 (1): 102-106.




高级黄大片试看45分钟,欧美最新精品videossexohd,欧美性色19p,欧美一区二区视频高清专区 网站地图