江行玉,男 , 教授 、 博導 。 研究領域:植物逆境生物化學與分子生物學。
基本介紹
- 中文名:江行玉
- 國籍:中國
- 畢業院校:河南師範大學
- 性別:男
- 職稱:教授
教育背景,工作簡歷,講授課程,目前承擔的課題,發表論文,
教育背景
1998-09--2001-07 山東農業大學 博士
1994-09--1997-07 山東師範大學 碩士
1990-09--1994-07 河南師範大學 學士
學歷:研究生
學位:博士
工作簡歷
2011-09--今 海南大學農學院 教授
2004-07--2011-08 西班牙科學院自然資源與農業生物學研究所 助理研究員
2003-01--2004-06 西班牙科學院Zaidin實驗研究所 博士後
2002-01--2002-12 以色列沙漠研究所 博士後
講授課程
本科:分子生物學,分子保鮮技術
研究生:現代分子生物學
目前承擔的課題
在研項目
1 小麥CBL-CIPK信號途徑對其鹽脅迫下cation/H+逆轉運蛋白活性的調控機制,2011年度自然科學基金(31160185),2011-2015年, 53萬元,主持人
2 磷酸化和去磷酸化對木欖細胞膜 Na+/H+逆轉運蛋白功能的調節,2012年度國家自然科學基金(31260218),2012-2016年,50萬元,主持人
3.導入紅海欖總DNA的番茄耐鹽相關基因的分離及功能驗證,2012年度國家自然科學基金(31260354 ),2012-2016年,49萬元,第二主持人
4.植物離子運輸蛋白功能及調控機理,2013年度海南省科技重大專項子課題(ZDZX2013023),2013-2015年,80萬元,主持人
5. 海水倒灌農田災后土壤修復關鍵技術研究與示範推廣/耐鹽作物品種的引進、試種與篩選,2014年度海南省科技重大專項子課題(HNGDhs201502),2014-2017年,2014年到賬經費52萬元,2015年已批准52萬元,主持人
6. 木薯橡膠樹抗病耐貧瘠機理,海南大學中西部計畫項目,2013-2015年,100萬元,主持人
7. 海南大學與天津大學聯合創新課題,2015-2018年,10萬元,子課題主持人
8. 磷酸化和去磷酸化對木欖細胞膜 Na+/H+逆轉運蛋白功能的調節,海南大學高層次人才科研啟動項目,2011-2016年,10萬元,主持人
發表論文
(*通訊作者)
(1)Xu Y., Zhou Y., Hong S., Cui D.Q., Xu H.X., Jiang X.Y.* Functional Characterization of A Wheat NHX Antiporter Gene TaNHX2 that Encodes A K+/H+ Exchanger. Plos One. 2013, 8(11):1-12 (*Jiang XY, corresponding author)
(2) Hao G, Shi R, Tao R, Jiang X.Y. et al. Cloning, molecular characterization and functional analysis of 1-hydroxy-2-methyl-2-(E)-butenyl-4-diphosphate reductase (HDR) gene for diterpenoid tanshinone biosynthesis in Salvia miltiorrhiza Bge. f. Alba. Plant Physiology and Biochemistry, 2013, 70:21-32
(3) Hong S, Cong X, Jing H, Xia Z, Huang X, Hu X, Jiang XY*. Characterization of Ca2+/H+ exchange in the plasma membrane of Saccharomyces cerevisiae. Archives of Biochemistry and Biophysics, 2013,537:125-132 (Jiang XY, corresponding author)
(4) Zhai J, Xia Z, Liu W, Jiang XY, Huang X. Genomic sequencing globally identifies functional genes and potential virulence-related effectors of Xanthomonas axonopodis pv. Malvacearum. European Journal of Plant Pathology, 2013, DOI 10.1007/s10658-013-0213-8
(5) Zhai J, Xu H, Xia Z, Huang X, Jiang XY.* Ca2+/H+ exchange in the plasma membrane of Arabidopsis thaliana leaves. Acta Physiologiae Plantarum,2013, 35:161-173 (Jiang XY, corresponding author)
(6) Xu H, Zhai J, Li W, Cui D, Jiang XY*. The responses of Mo-hydroxylases and abscisic acid to salinity in wheat genotypes differing in salt tolerance. Acta Physiologiae Plantarum, 2012, 34:1767-1778 (Jiang XY, corresponding author)
(7) Quintero FJ*, Martínez-Atienza J*, Caros I*, Jiang X.Y.*, Kim WY, Zhair A, Fujii H,Mendoza I., Yun DJ, Zhu JK, Pardo J.M. Activation of the plasma membrane Na/H antiporter SOS1 by phosphorylation of an autoinhibitory carboxy-terminal domain. Proceedings of the National Academy of Sciences, USA, 2011, 108:2611-2616
(8) Jiang X.Y., Leidi E.O., Pardo J.M. How do vacuolar NHX exchangers function in salt tolerance? Plant Signaling and Behavior. 2010, 5(7):1-4.
(9) Hernández A., Jiang X.Y., Cubero B., Nieto P.M., Bressan R.A., Hasegawa P.M., Pardo J.M. Mutations of the Arabidopsis thaliana cation/H+ antiporter AtNHX1 conferring increased salt tolerance in yeast. The endosome/prevacuolar compartment is a target for salt toxicity. Journal of Biological Chemistry. 2009, 284:14276–14285.
(10) Cubero B, Nakagawa Y, Jiang XY, Li F, Miura K, Raghothama KG, Bressan RA, Hasegawa PM, Pardo JM. The Phosphate Transporter PHT4;6Is a Determinant of Salt Tolerance that Is Localized to the Golgi Apparatus. Molecular Plant. 2009, 2:535-552
(11) Oh DH, Zhao Y, Leidi E, Quintero FJ, Jiang XY, Lee SY, Zhao Y, Bahk JD, Bressan RA, Yun DJ, Pardo JM, Bohnert HJ. Loss of Halophytism by Interference with SOS1 Expression. Plant Physiololy. 2009, 151:210-222
(12) Rodríguez-Rosales M.P., Jiang X.Y., Galvez F.J., Aranda M.N., Cubero B., Venema K. Overexpression of the Tomato K+/H+ Antiporter LeNHX2 Confers Salt Tolerance by Improving Potassium Nutrition. New Phytologist. 2008, 179:366-377.
(13) Xu H.X.*, Jiang X.Y.*, Zhan K.H., Cheng X.Y., Chen X.J., Pardo J.M., Cui D.Q. Functional characterization of a wheat plasma membrane Na?/H? antiporter in yeast. Archives of Biochemistry and Biophysics. 2008, 473:8-15. Same Contribution (* co-first authors): responsible for experimental design, biochemical studies and characterization of wheat SOS1.
(14) Jiang X.Y.*, Wang C.H. Zn distribution and Zn-binding forms in Phragmites australis seedlings under Zn pollution. Journal of Plant Physiology. 2008, 165:697-704. (Jiang XY, corresponding author)
(15) Jiang X.Y.*, Wang C.H. Cadmium distribution and its effects on molybdate-containing hydroxylases in Phragmites australis. Aquatic Botany. 2007, 86:353-360. (Jiang XY, corresponding author)
(16) Martínez-Atienza J, Jiang X.Y., Garciadeblas B., Mendoza I., Zhu J.K., Pardo J.M., Quintero F.J. Conservation of the SOS pathway for salt-tolerance in rice. Plant Physiology. 2007, 143:1001-1012.
(17) Jiang X.Y, Omarov R.T, Yesbergenova S.Z., Sagi M. The effect of molybdate and tungstate in the growth medium on abscisic acid content and theMo-hydroxylases activities in barley (Hordeum vulgare L.). Plant Science. 2004, 167:297-304.
(18) Jiang X.Y. Cyclic AMP: a second message during cucumber pollen tube growth? Israel Journal of Plant Sciences. 2004, 52(2):99-102.
(19) Zhao K.F., Fan H., Jiang X.Y. Critical day-length and photoinductive cycles for induction of flowering in the halophyte Suaeda salsa. Plant Science. 2002, 162:27-31.
(20) Cong X.L., Jing H.Y., Huang M.J., Jiang X.Y.* Boron deficiency affects on the photosynthesis, morphology and cell wall of young leaves of radish Plant Physiology and Biochemistry, 2014, Submitted. (Jiang XY, corresponding author)