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个人简介-田江研究员

tianjiang

田江,男,1976年出生,博士,研究员,博士生导师。国家自然科学基金优秀青年基金、教育部长江学者奖励计划青年学者和广东省高层次人才特支计划科技创新领军人才等称号的获得者。主要从事植物营养的教学和科研工作,重点研究作物根系养分高效的分子和遗传机制。主持了国家自然科学基金项目和省部级等项目共13项,在Current Opinion in Biotechnology和Plant Physiology等国内外著名杂志上发表论文34篇,其中SCI收录论文27篇,参编外文专著1部,获得国家授权发明专利3项,研究成果获得了农业部“中华农业科技奖”一等奖1项。

主要研究方向:养分对根系生长发育的分子调控机制

教育经历:

1994-1998年,华南农业大学,茶学专业,学士学位。

1998-2001年,华南农业大学,作物遗传与育种专业,硕士学位;

2001-2004年,华南农业大学,作物遗传与育种专业,博士学位;

主要工作经历:

2005/5-2006/9,美国普渡大学,园艺与景观设计系,博士后;

2006/9-2007/12,美国罗格斯大学,植物生物与病理学系,博士后;

2008/3-2014/12,华南农业大学,资源环境学院,副研究员;

2015/01-至今,华南农业大学,资源环境学院,研究员。

主要科研项目:

1) 国家重点研发计划子课题,大豆根系磷高效活化吸收的关键基因及分子机制,130万元,2016/7-2020/12,主持;

2) 广东省高层次人才特殊支持计划科技创新领军人才,80万元,2016/01-2018/12,主持;

3) 国家自然科学基金优秀青年基金,大豆根瘤响应低磷胁迫的特异生理和分子机制,100万元,2015/01-2017/12,主持;

4) 国家自然科学基金面上基金,GmNEF1调控大豆根瘤响应低磷胁迫的生理和分子机制,80万元,2014/01-2017/12,主持;

5) 国家自然科学基金青年基金,蛋白磷酸酶HAD调控大豆根系响应磷营养变化的分子机理,25万元,2012/01-2014/12,主持;

6) 广东省广州市珠江科技新星专项,根瘤调控大豆根系活化土壤磷的机制,2011J2200055,30万元,2011/01-2014/12,主持;

7) 国家重大基础研究项目(973项目),优良根构型建成与土壤养分活化的遗传与分子机制,500万,2011/01-2015/12,主要参加;

8) 国家自然科学基金重大课题,根际生物互作影响土壤磷活化和利用的机制,400万元,2009/01-2012/12,主要参加;

9) 中国热带农业科学院基本科研业务费专项,柱花草适应酸性土壤的机理研究,40万元,2010/01-2011/12,主持。

授权专利:

1) 专利名称:GmALMT1调控大豆耐酸铝毒害的功能及应用。发明人:梁翠月,田江,廖红。专利号:ZL201210302082.6。授权日期:2015/1/21;

2) 专利名称:一种植物耐锰毒害重要基因ShMDH1的克隆及其应用。发明人:田江、廖红、陈志坚。专利号: 201310290864.7。发文授权日期:2015-10-10;

3) 专利名称:一种苹果酸酶基因SgME1及其应用。发明人:田江、廖红、孙丽莉。专利号: 201310290850.5。发文授权日期:2016-01-20。

近年发表的SCI论文(*为通讯作者):

1)Liu PD, Xue YB, Chen ZJ, Liu GD*, Tian J*. 2016. Characterization of purple acid phosphatases involved in extracellular dNTP utilization in Stylosanthes. Journal of Experimental Botany. 67:4141-4154;

2)Sun LL, Tian J, Zhang HY, Liao H*. 2016. Phytohormone regulation of root growth triggered by P deficiency or Al toxicity. Journal of Experimental Botany. 67:3655-3664;

3)Chen ZJ, Yan W, Sun LL, Tian J*, Liao H*. 2016. Proteomic analysis reveals growth inhibition of soybean roots by manganese toxicity is associated with alteration of cell wall structure and lignification. Journal of Proteomics. 143:151-160;

4)Chen ZJ, Sun LL, Liu PD, Liu GD, Tian J*, Liao H. 2015. Malate synthesis and secretion mediated by a manganese-enhanced malate dehydrogenase confers superior manganese tolerance in Stylosanthes guianensis. Plant Physiology. 167:176-188;

5)Yao ZF, Tian J*, Liao H. 2014. Comparative characterization of GmSPX members reveals that GmSPX3 is involved in phosphate homeostasis in soybean. Annals of Botany. 114:477-488;

6)Yao ZF, Liang CY, Zhang Q, Chen ZJ, Xiao BX, Tian J*, Liao H. 2014. SPX1 is an important component in the phosphorus signalling network of common bean regulating root growth and phosphorus homeostasis. Journal of Experimental Botany. 65:3299-3310;

7)Sun LL, Liang CY, Chen ZJ, Liu PD, Tian J*, Liu GD*, Liao H. 2014. Superior Al tolerance of Stylosanthes is mainly achieved by malate synthesis through an Al-enhanced malic enzyme, SgME1. New Phytologist. 202:209-219;

8)Liang CY, Wang JX, Zhao J, Tian J, Liao H. 2014. Control of phosphate homeostasis through gene regulation in crops. Current Opinion in Plant Biology. 21:59-66;

9)Liang CY, Tian J*, Liao H. 2013. Proteomics dissection of plant responses to mineral nutrient deficiency. Proteomics. 13:624-636;

10)Liang CY, Piñeros M, Tian J, Yao ZF, Sun LL, Liu JP, Shaff J, Coluccio A, Kochian L, Liao H. 2013. Low pH, aluminum and phosphorus coordinately regulate malate exudation through GmALMT1 to improve soybean adaptation to acid soils. Plant Physiology. 161:1347-1361;

11) Tian J, Wang X, Tong Y, Chen X, Liao H. 2012. Bioengineering and management for efficient phosphorus utilization in crops and pastures. Current Opinion in Biotechnology. 23:866–871;

12) Qin L, Zhao J, Tian J, Chen L, Sun Z, Guo Y, Lu X, Gu M, Xu G, Liao H. 2012. The high-affinity phosphate transporter GmPT5 regulates phosphate transport to nodules and nodulation in soybean. Plant Physiology. 159:1634-43;

13) Liang CY, Sun LL, Yao ZF, Liao H, Tian J*. 2012. Comparative analysis of PvPAP gene family and their functions in response to phosphorus deficiency in common bean. PLoS ONE. 7(5): e38106;

14) Liang CY, Chen ZJ, Yao ZF, Tian J*, Liao H. 2012. Characterization of two putative protein phosphatase genes and their involvement in phosphorus efficiency in Phaseolus vulgaris. Journal of Integrative Plant Biology. 54: 400-411;

15) Gao X, Lu X, Wu M, Zhang H, Chen X, Pan R, Tian J, Li S, Liao H. 2012. Co-inoculation with rhizobia and AMF inhibited soybean red crown rot: from field study to plant defense-related gene expression analysis. PloS ONE. 7(3): e33977;

16) Qin L, Jiang H, Tian J, Zhao J, Liao H. 2011. Rhizobia enhance acquisition of phosphorus from different sources by soybean plants. Plant and Soil. 349:25-36;

17) Chen Z, Cui Q, Liang C, Sun L, Tian J*, Liao H. 2011. Identification of differentially expressed proteins in soybean nodules under phosphorus deficiency through proteomic analysis. Proteomics. 11: 4648-4659;

18) Ao JH, Fu JB, Tian J, Yan XL, Liao H. 2010. Genetic variability for root morph-architecture traits and root growth dynamics as related to phosphorus efficiency in soybean. Functional Plant Biology. 37: 304-312;

19) Liang CY, Tian J, Lam HM, Lim BL, Yan XL, Liao H. 2010. Biochemical and molecular characterization of PvPAP3, a novel purple acid phosphatase isolated from common bean enhancing extracellular ATP utilization. Plant Physiology. 152: 854-865;

20) Du YM, Tian J, Liao H, Bai CJ, Yan XL, Liu GD. 2009. Aluminum tolerance and high phosphorus efficiency helps Stylosanthes better adapt to low-P acid soils. Annals of Botany. 103: 1239-1247;

21) Wang XR, Wang YX, Tian J, Yan XL, Liao H. 2009. Overexpressing AtPAP15 enhances phosphorus efficiency in soybean. Plant Physiology. 151: 233-240;

22) Xing JP, Xu Y, Tian J, Gianfagna T, Huang B. 2009. Suppression of shade- or heat-induced leaf senescence in creeping bentgrass through transformation with the ipt gene for cytokinin synthesis. Journal of the American Society for Horticultural Science. 134:602-609;

23) Xu Y, Tian J, Gianfagna Y, Huang BR. 2009. Effects of SAG12-ipt expression on cytokinin production, growth and senescence of creeping bentgrass (Agrostis stolonifera L.) under heat stress. Plant Growth Regulation. 57: 281-291;

24) Tian J, Belanger FC, Huang BR. 2009. Identification of heat stress-responsive genes in heat-adapted thermal Agrostis scabra by suppression subtractive hybridization. Journal of Plant Physiology. 166: 588-601.