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南京农业大学资源与环境科学学院导师教师师资介绍简介-张亚丽
/2021-03-27
一、工作经历
2009.12- 南京农业大学 教授
2006.10-12 澳大利亚墨尔本大学 访问学者
2008. 2 - 8 美国加州大学圣地亚哥分校 访问学者
2013. 1-2 参加农业部组织的赴美培训班
2017.4 -2018.4 美国加州学圣地亚哥分校 访问学者
2019.8-9 荷兰瓦格宁根大学 合作研究
二、研究方向
1、植物氮磷高效的分子生理机制
2、养分调控水稻根系建成的调控网络
三、 主持及参与的科研项目(2010 年以来)
欢迎报考研究生!
邮箱 ylzhang@njau.edu.cn
电话:025-84396228
1. 国家自然科学基金“水稻转录因子 MADS61 参与氮素调控水稻分蘖芽生长的机制”(主持,2020-2023)
2. 国家重点研发计划试点专项: 长江中下游及西南冬小麦化肥农药减施增效技术集成研究与示范(子项目主持,2018-2020)
3. 国家重点研发计划试点专项:作物氮高效基因型减氮增效潜力及生物学机制
(子项目主持,2017-2020)
4. 国家自然科学基金“独脚金内酯提高水稻磷素吸收利用的新机制”(主持,
2017-2020)
5. 国家自然科学基金“水稻转录因子 OsMADS57 参与硝酸盐调控根系伸长的机制”(主持,2015-2018)
6. 横向课题“攀枝花烟叶质量特质挖掘及彰显关键技术研究与应用”(主持,
2015-2017)
7、国家自然科学基金“独角金内酯参与氮调控水稻根系生长的机制“(主持,
2012-2015)
8. 横向课题“中间香型特色优质烟叶生态基础研究” (主持,2014)
9. 国家自然科学基金“水稻 OsNAR2.1 参与硝酸盐调控根系生长的机制”(主持,2011-2013)
10.中国博士后科学基金“硝酸盐调控水稻根系生长的机制研究”(主持,
2010-2012)
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11. 土壤与农业可持续发展国家重点实验室开放基金“NAR2.1 在硝态氮调节植物根系生长中的可能机制”(主持,2010-2012)
12. 国家自然科学基金“增硝营养调控不同氮效率水稻基因型根系生长的机制研究”(主持,2008-2010)
四、授权及申请专利
植物生长素运输蛋白基因 OsPIN2 的基因工程应用 范晓荣 徐国华 陈赢男张亚丽 (ZL2010110018297.6,2010)
植物生长素运输蛋白基因 OsPIN9 的基因工程应用 张亚丽 侯蒙蒙(专利号
201711326274.X)申请日期 2017.12.13
五、发表的文章( (2010 年以来)
1. Sun H#, Guo X, Xu F, Wu D, Zhang X, Lou M, Luo F, Xu G, Zhang Y#.
Overexpression of OsPIN2 Regulates Root Growth and Formation in Response to Phosphate Deficiency
in Rice. International Journal of Molecular Sciences, 20(20):5144
2. Sun H#, Xu F, Guo X, Wu D, Zhang X, Lou M, Luo F, Zhao Q, Xu G, Zhang Y#. A strigolactone
signal inhibits secondary lateral root development in rice. Frontiers in Plant Science,
2019,10:1527
3. Huang S, Liang Z, Chen S, Sun H, Fan X, Wang C, Xu G, Zhang Y#. A transcription factor
OsMADS57 regulates long distance nitrate transport and root elongation. 2019, Plant physiology,
180:882-895
4. Sun H, Tao J, Bi Y, Hou M, Lou J, Chen X, Zhang X, Luo L, Xie X, Yoneyama K, Zhao Q, Xu G,
Zhang Y#. OsPIN1b is involved in rice seminal root elongation by regulating root apical meristem
activity in response to low-nitrogen and -phosphate. Scientific reports. 2018,8:13014
5. Wang C, Zhao Y, Gu P, Zou F, Meng L, Song W, Yang Y, Wang S#, Zhang Y#. Auxin is involved
in lateral root formation induced by drought stress in tobacco seedlings. Journal of Plant
Growth Regulation, 2018, 37:539-549.
6. Song W, Xue R, Bi Y, Liang Z, Meng L, Dong C, Wang C, Liu G, Dong J #, Zhang Y#.
Differential response of first-order lateral root elongation to low potassium involves nitric oxide
in two tobacco cultivars. Journal of plant growth regulation. 2018, 37:114-127.
7. Tao J, Sun H, Gu P, Liang Z, Chen X, Lou J, Xu G, Zhang Y#. A sensitive synthetic reporter
for visualizing cytokinin signaling output in rice. Plant Methods. 2017, 27:13:89.
8. Sun H, Tao J, Zhao Q, Xu G, Zhang Y#. Multiple roles of nitric oxide in root development and
nitrogen uptake. Plant signaling behavior. 2017,12(1): e1274480
9. Sun H, Bi Y, Tao J, Huang S, Hou M, Xue R, Liang Z, Gu P, Yoneyama ,Xie X, Shen Q, Xu G,
Zhang Y#. Strigolactones are required for nitric oxide to induce root elongation in
response to nitrogen- and phosphate-deficiency in rice. Plant Cell Environment, 2016.
39:1473-1484
10. Sun H, Tao J, Gu P, Xu G, Zhang Y#. The role of strigolactones in root
development. Plant Signaling Behavior, 2016,11(1):e1110662
11. Huang S, Chen S, Zhang C,Yan Ming, Chen J, Xu G, Fan X, Zhang Y#. Knockdown of the partner
protein OsNAR2.1 for high-affinity nitrate transport represses lateral root formation in a
nitrate-dependent manner.
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Scientific Reports, 2015, 5:18192.
12. Song W, Liu S, Meng L, Xue R, Wang C, Liu G, Wang S, Dong J, Zhang Y#. Potassium deficiency
inhibits lateral root development in tobacco seedlings by changing auxin distribution.
Plant and Soil, 2015, 396:163-173
13. Meng L, Song W, Liu S, Dong J, Zhang Y, Xu Y, Wang S. Light quality regulates lateral root
development in tobacco seedlings by shifting auxin distributions. Journal of plant growth
regulation, 2015, 34:574-583
14. Sun H, Tao J, Hou M, Huang S, Chen S, Liang Z, T Xie, Y Wei, Xie X, Yoneyama K,G Xu, Zhang
Y#. A strigolactone signal is required for adventitious root formation in rice.
Annals of botany, 2015, 115(7):1155-1162.
15. Sun H, J Li, Song W, Tao J, Huang S, Chen S, Hou M, Xu G, Zhang Y#. Nitric oxide generated by
nitrate reductase increases nitrogen uptake capacity by inducing lateral root formation and
inorganic nitrogen uptake under partial nitrate nutrition in rice. Journal of Experimental Botany,
2015, 66: 2449-2259.
16. Sun H, Tao J, Liu S, Huang S, Chen S, Xie X, Yoneyama K, Zhang Y#, Xu G. Strigolactones are
involved in phosphate and nitrate deficiency-induced root development and auxin
transport in rice. Journal of Experimental Botany, 2014, 65:6735-6746.
17. Song W, Sun H, Li J, Gong X, Huang S, Zhu X, Zhang Y#, Xu G. Auxin
distribution is differentially affected by nitrate in roots of two rice cultivars differing in
responsiveness to nitrogen nutrients. Annals of botany, 2013,112:1383-1393
18. Song W, Li J, Sun H, Huang S, Gong X, Ma Q, Zhang Y#, Xu G. Increased
photosynthetic capacity in response to nitrate is correlated with enhanced cytokinin levels in
rice cultivar with high responsiveness to nitrogen. Plant and Soil, 2013, 373 :981-993.
19. Chen Y, Fan X, Song W, Zhang Y, Xu G. Over-expression of OsPIN2 leads to
increased tiller numbers, angle and shorter plant height through suppression of OsLAZY1.
Plant Biotechnology Journal, 2011, 10:139-149
20. Song W, Makeen K, Wang D, Zhang C, Xu Y, Zhao H, Tu E, Zhang Y#, Shen Q, Xu G.
Nitrate supply affects root growth differentially in two rice cultivars differing in nitrogen use
efficiency. Plant and soil, 2011, 343:357-368
21. Zhang Y#,Lv H,Wang D,Deng J,Song W, Shen Q,Xu G. Partial nitrate nutrition amends
photosynthetic
characteristics in rice (Oryza sativa L. var. japonica) differing in nitrogen-use
efficiency. Plant growth regulation, 2011, 63:235-242
22. Wang R,Guan P,Chen M,Xing X,Zhang Y, Crawford N. Multiple regulatory elements in the
arabidopsis
nia1 promoter act synergistically to form a nitrate enhancer. Plant Physiology, 2010, 154:423-432
23. Fan J, Zhang Y, Turner D, Duan Y, Wang D, Shen Q. 2010. Difference in root physiological
characteristics and morphology between two rice cultivars with different nitrogen-use efficiency.
Pedosphere,20(4):446-455
24. 孙虎威, 王文亮, 刘尚俊, 侯蒙蒙, 谢天宁, 梁志浩, 樊亚男, 张亚丽#. 低氮胁迫下水稻根系的发生及
生长素的响应.土壤学报, 2014, 51:183-189
25. 黄荣, 孙虎威, 刘尚俊, 宋文静, 刘言勋, 余超, 毛颖, 张亚丽#,徐国华. 磷胁迫下水稻根系的发生及生长素的响应.中国水稻科学, 2012,
26(5):563-568
26. 宋文静,金晶晶, 哈丽哈什, 图尔迪, 沈其荣, 张亚丽#.不同硝响应型水稻品种苗期根系生长对增硝营养的响应. 土壤学报,2011, 48(3):1006-1012
27. 张辰明,徐烨红,赵海娟,图尔迪,沈其荣,张亚丽#.2011.不同氮形态对水稻苗期氮素吸收和根系生
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长的影响. 南京农业大学学报 ,34(3):72-76
28. 叶利庭,吕华军,宋文静,图尔迪,沈其荣,张亚丽#. 不同氮效率水稻生育后期氮代谢酶活性的变化特征,土壤学报,2011, 48(1):105-113
29. 王东升, 樊剑波, 叶利庭, 宋文静,图尔迪,张亚丽#, 沈其荣.不同氮效率水稻品种的群体发育特征. 南京农业大学学报, 2010, 33(5):101-106
30. 叶利庭,樊剑波,沈其荣,张亚丽#. 不同氮效率水稻的生长特性研究. 南京农业大学学报, 2010, 33(3):77-81
31. 叶利庭, 宋文静,吕华军,栗艳霞,沈其荣,张亚丽#.不同氮效率水稻生育后期氮素积累转运特征. 土壤学报, 2010, 47(2):303-310
六、奖励
1. 获得资源与环境科学学院 2010-2011 学年“优秀教师教学奖励”。
2. 南京农业大学教学综合评价优秀(2009-2010 学年、2010-2011 学年、
2011-2012 学年 2015-2016 学年的第二学期)
3. 指导的毕业生论文设计获得“2011 年江苏省普通高等学校本专科优秀论文设计三等奖”。
4. “土壤学报”2011 年度优秀论文奖(第一作者)
5. 中国百篇最具影响国内学术论文; 2012;张亚丽(第一作者)
6. 2012 年度“领跑者5000”中国精品科技期刊顶尖学术论文;2013
7. 2016年 本人指导的博士生孙虎威获得“江苏省优秀博士学位论文”。
8. 2015年度江苏省科学技术奖 一等奖 (10/11)
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