王瑋[山東農業大學教授]

王瑋[山東農業大學教授]

王瑋,山東農業大學教授,博士生導師。

基本信息

教學工作

承擔本科生《植物生理學》、《植物生理學實驗》、《細胞信號轉導》的教學工作;研究生《植物抗性生理》、《細胞信號轉導》、《高級植物生理實驗技術》等課程的教學工作。

研究方向

1. 植物逆境生理及其分子基礎(plant stress physiology and molecular biology):研究植物對逆境的分子生理反應及其分子機制,克隆逆境相關基因,研究基因的表達調控及生物學功能,通過基因工程獲得抗逆性強的作物新品種。

2. 小麥抗逆新品種的培育(wheat breeding for stress resistance):將植物逆境生理及逆境分子生物學的研究成果用於小麥的抗逆育種過程,培育抗逆性強、農藝性狀好、產量穩定性好的小麥新品種。

科研項目

1. 國家自然科學基金《小麥泛素連線酶F-box蛋白基因在調節植物耐旱性中的功能》(No.31370304

2. 國家自然科學基金《小麥擴展蛋白調節的生長反應與抗旱性關係》(No.30671259)

3. 山東省農業良種產業化開發項目 《小麥及其近緣植物基因資源發掘和抗病、耐逆、多花多粒種質創新研究》子課題

4. 山東省科技成果轉化項目《抗旱小麥新品種山農16號及配套栽培技術推廣示範》

5. 山東省資源節約型社會科技支撐體系建設專項計畫《現代農業節水關鍵技術體系集成與示範》子課題(No.2006JY06)

6. 山東省科技攻關項目《抗旱耐鹽優質小麥新品種選育、配套栽培技術及抗性機理研究》(No.2005GG3209122)

7. 山東省農業良種工程重大課題《高產優質抗逆超級小麥新品種培育》子課題

8. 山東省菸草專賣局《烤菸抗旱生理及抗旱性栽培研究》(No.KN77)

9. 山東省教育廳《抗旱節水小麥的生理育種》(No.J02I05)

10. 山東省自然科學基金《冬小麥抗旱主效基因的克隆、表達特性及其生理功能研究》(No. Y2003D03)

科研獎勵
山東省優秀博士學位論文獲《冬小麥抗旱性及其鑑定與選擇方法的理論與實踐》。 山東省農牧漁業豐收獎《抗旱小麥新品種山農16及配套栽培技術推廣示範》二等獎,第一完成人。 德州市科學技術獎《山農16旱作栽培技術及抗旱生理機制研究》一等獎,第一完成人。 泰安市科學技術獎《抗旱節水廣適小麥新品種山農16的培育及推廣套用》三等獎,第二完成人。
研究成果
培育抗旱小麥新品種“山農16號”(魯農審2007047)。該品種2007年通過了山東省農作物品種審定委員會的審定。 2005鑑定的“小麥胚芽鞘法抗旱生理育種的理論與實踐”項目在本領域達到國際先進水平。
發表論文
  • Shan Zhou, Yang-yang Han, Yan-hui Chen, Xiangzhu Kong, Wei Wang*. The Involvement of Expansins in Response to Water Stress during Leaf Development in Wheat, Journal of Plant Physiology, 2015 183: 64-74
  • Meng Zhang, Hanhan Kang, Guangqiang Zhang, Yanhui Chen, Xiangzhu Kong, Qifang Guo, Wei Wang*. Overexpression of TaUb2 enhances disease resistance to Pseudomonas syringae pv. tomato DC3000 in tobacco. Physiological and Molecular Plant Pathology, 2015,90: 98-104
  • Shumei Zhou, Xiangzhu Kong, Hanhan Kang, Xiudong Sun, Wei Wang*, The involvement of wheat F-box protein gene TaFBA1 in the oxidative stress tolerance of plants. PLoS One, 2015, 10(4). DOI: 3.53410.1371/journal.pone.0122117
  • Yangyang Han, Yanhui Chen, Suhnog Yin, Meng Zhang, Wei Wang*. Overexpression of TaEXPB23, a wheat expansin gene, improves oxidative stress tolerance in transgenic tobacco plants. Journal of Plant Physiology, 2015,173: 62-71
  • Ai Xiu Li, Yang Yang Han, Xin Wang, Yan Hui Chen, Mei Rong Zhao, Shu Mei Zhou, Wei Wang*. Root-specific expression of wheat expansin gene TaEXPB23 enhances root growth and water stress tolerance in tobacco, Environmental and Experimental Botany, 2014,110: 73–84 10.1016/j.envexpbot.2014.10.002
  • Gui-Ping Wang, Feng-Xia Tian, Meng Zhang, Wei Wang*. The overaccumulation of glycinebetaine alleviated damages to PSII of wheat flag leaves under drought and heat stress combination. Acta Physiol Plant, 2014, 36:2743–2753
  • Shumei Zhou, Xiudong Sun, Suhong Yin, Xiangzhu Kong, Shan Zhou, Ying Xu, Yin Luo, Wei Wang*. The role of the F-box gene TaFBA1 from wheat (Triticum aestivum L.) in drought tolerance, Plant Physiology and Biochemistry, 2014, 84: 213-223
  • Fengxia Tian, Jiangfeng Gong, Jin Zhang, Yanan Feng, Guokun Wang,Qifang Guo, Wei Wang*. Overexpression of monoubiquitin improves photosynthesis in transgenic tobacco plants following high temperature stress. Plant Science, 2014, 226: 92-100
  • Yang-yang Han, Shan Zhou, Yan-hui Chen, Xiangzhu Kong, Ying Xu, Wei Wang*. The involvement of expansins in responses to phosphorus availability in wheat, and its potentials in improving phosphorus efficiency of plants. Plant Physiology and Biochemistry, 2014, 78: 53-62
  • Y. L. Wu, Q. F. Guo, Y. Luo, F. X. Tian, W. Wang*. Differences in Physiological Characteristics between Two Wheat Cultivars Exposed to Field Water Deficit Conditions. Russian Journal of Plant Physiology, 2014, 61(4): 451–459
  • Yanan Feng, Meng Zhang, Qifang Guo, Guokun Wang, Jiangfeng Gong, Yin Xu, Wei Wang*. Manipulation of Monoubiquitin Improves Chilling Tolerance in Transgenic Tobacco (Nicotiana tabacum). Plant Physiology and Biochemistry, 2014,75: 138-144
  • Fengxia Tian, Jiangfeng Gong, Jin Zhang, Meng Zhang, Guokun Wang, Aixiu Li and Wei Wang*Enhanced stability of thylakoid membrane proteins and antioxidant competence contribute to drought stress resistance in the tasg1 wheat stay-green mutant. Journal of Experimental Botany, 2013, 64(6): 1509–1520 doi:10.1093/jxb/ert004
  • Feng Li, Yangyang Han, Yanan Feng, Shichao Xing, Meirong Zhao, Yanhui Chen, Wei Wang* (). The ectopic expression of wheat expansins in tobacco driven by the RD29 promoter confers water stress tolerance and improved phenotype. Journal of Biotechnology, 2013,163: 281–291 doi:10.1016/j.jbiotec.2012.11.008
  • Guo-Kun Wang, Meng Zhang, Jiang-Feng Gong, Qi-Fang Guo, Ya-Nan Feng, Wei Wang*. Increased gibberellin contents contribute to accelerated growth and development of transgenic tobacco overexpressing a wheat ubiquitin gene. Plant Cell Rep,2012, 31: 2215- 2227 DOI 10.1007/s00299-012-1331-z
  • Yangyang Han, Aixiu Li, Feng Li, Meirong Zhao, Wei Wang*. Characterization of a wheat (Triticum aestivum L.) expansin gene, TaEXPB23, involved in the abiotic stress response and phytohormone regulation. Plant Physiology and Biochemistry, 2012, 54: 49-58doi:10.1016/j.plaphy.2012.02.007
  • Zhen Hui, Feng-Xia Tian, Guo-kun Wang, Gui-Ping Wang, Wei Wang*. The antioxidative defense system is involved in the delayed senescence in a wheat mutant tasg1. Plant Cell Rep, 2012, 31:1073–1084 DOI 10.1007/s00299-012-1226-z
  • Jin Zhang, Qifang Guo, Feng Li, Yanan Feng, Zhenyu Fan, Wei Wang*. Manipulation of monoubiquitin improves salt tolerance in transgenic tobacco, plant biology, 2012, 14: 315–324doi:10.1111/j.1438-8677.2011.00512.x
  • Mei-rong Zhao, Yang-yang Han, Ya-nan Feng, Feng Li, Wei Wang*. Expansins are involved in cell growth mediated by abscisic acid and indole-3-acetic acid under drought stress in wheat. Plant Cell Rep, 2012, 31:671–685 DOI 10.1007/s00299-011-1185-9
  • F.X. TIAN, J.F. GONG, G.P. WANG, G.K. WANG, Z.Y. FAN and W. WANG*. Improved drought resistance in a wheat stay-green mutant, tasg1, under field conditions. Biologia Plantarum, 2012, 56 (3): 509-515doi:10.1007/s10535-012-0049-7
  • Feng Li, Shichao Xing, Qifang Guo, Meirong Zhao, Jin Zhang, Qiang Gao, Guiping Wang, Wei Wang*.Drought tolerance through over-expression of the expansin gene TaEXPB23 in transgenic tobacco, Journal of Plant Physiology, 2011, 168: 960–966 doi:10.1016/j.jplph.2010.11.023
  • Mei-rong Zhao, Feng Li, Ying Fang, Qiang Gao, Wei Wang*.Expansin-regulated Cell Elongation is Involved in the Drought Tolerance in Wheat. Protoplasma, 2011, 248: 313–323 (DOI 10.1007/s00709-010 -0172-2)
  • X.-Y. ZHANG, C. LIANG, G.-P. WANG, Y. LUO and W. WANG*. The protection of wheat plasma membrane under cold stress by glycine betaine overproduction. Biologia Plantarum , 2010, 54 (1): 83-88, 2010. DOI 10.1007/s10535-010-0012-4
  • Y. LUO, F. LI, G.P. WANG, X.H. YANG and W. WANG*. Exogenously-supplied trehalose protects thylakoid membranes of winter wheat from heat-induced damage. Biologia Plantarum, 2010, 54 (3): 495-501 DOI: 10.1007/s10535-010-0087-y
  • Wang GP, Li F, Zhang J, Zhao MR, Hui Z, Wang W* . Overaccumulation of glycine betaine enhances tolerance of the photosynthetic apparatus to drought and heat stress in wheat. Photosynthetica, 2010, 48(1): 30–41 DOI: 10.1007/s11099-010-0006-7
  • Wang GP, Zhang XY, Li F, Luo Y, Wang W*. Overaccumulation of glycine betaine enhances tolerance to drought and heat stress in wheat leaves in the protection of photosynthesis. Photosynthetica, 2010, 48(1): 117-126 DOI: 10.1007/s11099-010-0016-5
  • Gui-Ping Wang, Zhen Hui, Feng Li, Mei-Rong Zhao, Jin Zhang, Wei Wang*. Improvement of heat and drought photosynthetic tolerance in wheat by overaccumulation of glycinebetaine. Plant Biotechnol Rep. 2010, 4:213–222, DOI 10.1007/s11816-010-0139-y
  • S.-C. XING, F. LI, Q.-F. GUO, D.-R. LIU, X.-X. ZHAO and W. WANG*. The involvement of an expansin geneTaEXPB23 from wheat in regulating plant cell growth. Biologia Plantarum, 2009, 53 (3): 429-434
  • C. Liang , X. Y. Zhang, Y. Luo, G. P. Wang, Q. Zou, and W. Wang*.Overaccumulation of Glycine Betaine Alleviates the Negative Effects of Salt Stress in Wheat. Russian Journal of Plant Physiology, 2009, 56: 370–376
  • Yin Luo, Wei-Min Li , Wei Wang*. Trehalose: Protector of antioxidant enzymes or reactive oxygen species scavenger under heat stress? Environmental and Experimental Botany, 2008, 63: 78–384 doi:10.1016/j.envexpbot.2007.11.016
  • C. WANG, X.L. MA, Z. HUI, and W. WANG*. Glycine betaine improves thylakoid membrane function of tobacco leaves under low-temperature stress. Photosynthetica, 2008, 46 (3): 400-409
  • Gifang Guo, JinZhang, Qiang Gao,ShichaoXing,FengLi, Wei Wang*. Drought tolerance through overexpression of monoubiquitin in transgenic tobacco. J Plant Physiol, 2008, 165:1745-1755. doi:10.1016/j.jplph.2007.10.002
  • Qiang Gao, Meirong Zhao, Feng Li, Qifang Guo, Shichao Xing, Wei Wang*. Expansins and Coleoptile Elongation in wheat. Protoplasma, 2008, 233: 73-81 DOI 10.1007/s00709-008- 0303-1
  • X. L. Ma, Y. J. Wang, S. L. Xie, C. Wang, and W. Wang*. Glycinebetaine Application Ameliorates Negative Effects of Drought Stress in Tobacco, Russian Journal of Plant Physiology, 2007. 54: 472–479
  • X.-X. ZHAO, Q.-Q. MA, C. LIANG, Y. FANG, Y.-Q. WANG and W. WANG*. Application of glycinebetaine improved function of thylakoid membranes in wheat flag leaves under drought stress, Biologia Plantarum, 2007, 51(3):584-588
  • 高強,郭啟芳,邢士超,趙美榮,李峰,王瑋*. The Characteristics of Expansins IN wheat Coleoptiles and Their Responses to Water Stress, Journal of Plant Physiology and Molecular Biology, 2007, 33(5):402-410
  • Qian-Quan Ma, Wei Wang*, Yong-Hua Li, De-Quan Li, Qi Zou (2006) Alleviation of photoinhibition in drought-stressed wheat (Triticum aestivum) by foliar-applied glycinebetaine, Journal of plant physiology, 163(2): 165-175
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