教育背景
1994/9-1998/7,
, 茶学专业, 学士;
1998/9-2001/7,
, 作物遗传育种专业, 硕士;
2001/9-2004/12,
, 植物营养专业, 博士。
工作履历
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;
2008/3-2013/12
,资源环境学院,副研究员;
2014/1-2014/12
,资源环境学院,青年教授;
2015/01-至今
,资源环境学院,研究员。
学术兼职
中国植物营养与肥料学会植物营养生物学专业委员
中国植物生理和分子生物学学会青年工作委员
Frontier in Plant Science, Plant Biotechnology Reports编辑
研究领域
植物营养分子与遗传
根系/根际生物学
植物逆境生物学
奖励与荣誉
教育部“长江学者奖励计划青年学者”
国家自然科学基金优青项目
广东省特支计划“科技创新领军人才”
广州市“珠江科技新星”
主持项目
1)国家自然科学基金(面上),GmCSN与GmHAD1-2互作调控大豆根系响应低磷胁迫的机制,2019/01-2022/12;
2)国家重点研发计划子课题,大豆根系高效活化吸收磷的关键基因及其分子机制,2016/7-2020/12;
3)广东省高层次人才特殊支持计划科技创新领军人才,2016/01-2018/12;
4)国家自然科学基金(优秀青年),大豆根瘤响应低磷胁迫的特异生理和分子机制,2015/01-2017/12;
5)国家自然科学基金(面上),GmNEF1调控大豆根瘤响应低磷胁迫的生理和分子机制,2014/01-2017/12;
7)国家自然科学基金(青年),蛋白磷酸酶HAD调控大豆根系响应磷营养变化的分子机理,2012/01-2014/12;
8)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,2011/01-2014/12;
9)国家重大基础研究项目(973项目)子课题,大豆根系磷信号网络的构建,2011/01-2015/12;
10)教育部博士点青年教师基金,新型酸性磷酸酶PvPS2基因家族的功能分析,2010/01-2012/12;
11)国家自然科学基金重大课题子课题,双接种调控大豆根系活化利用磷的分子机制,2009/01-2012/12
学术成果
一、发表论文:
1)Tian J, Lu X, Chen Q, Kuang X, Liang C*, Deng L, Lin D, Cai K, Tian J*. 2020. Phosphorus fertilization affects soybean rhizosphere phosphorus dynamics and the bacterial community in karst soils. Pant and Soil. Doi:10.1007/s11104-020-04662-6.
2)Liu Y, Xue Y, Xie B, Zhu S, Lu X, Liang C*, Tian J*. 2020. Complex gene regulation between young and old soybean leaves in responses to manganese toxicity. Plant Physiology and Biochemistry. 155: 231-242; Doi:10.1016/j.plaphy.2020.07.002
3)Zhu S, Chen M, Liang C, Xue Y, Lin S, Tian J*. 2020. Characterization of purple acid phosphatase family and functional analysis of GmPAP7a/7b involved in extracellular ATP utilization in soybean. Frontier in Plant Science, 11: 661. Doi: 10.3389/fpls.2020.00661.
4)Mo X, Zhang M, Liang C, Cai L, Tian J*. 2019. Integration of metabolome and transcriptome analyses highlights soybean roots responding to phosphorus deficiency by modulating phosphorylated metabolite processes. Plant Physiology and Biochemistry, 139: 697-706; doi:10.1016/j.plaphy.2019.04.033.
5)Xue YB, Zhuang QL, Zhu SN, Xiao B, Liang CY, Liao H, Tian J*. 2018. Genome wide transcriptome analysis reveals complex regulatory mechanisms underlying phosphate homeostasis in soybean nodules. International Journal of Molecular Science, 19, 2924; doi:10.3390/ijms19102924
6)Liu PD, Cai ZF, Chen ZJ, Mo XH, Ding XP, Liang CY, Liu GD, Tian J*. 2018. A root-associated purple acid phosphatase, SgPAP23, mediates extracellular phytate-P utilization in Stylosanthes guianensis. Plant, Cell and Environment. 41:2821–2834
7)Xue Y, Xiao B, Zhu S, Mo X, Liang C, Tian J*, Liao H. 2017. GmPHR25, a phosphate starvation up-regulated GmPHR member controls phosphate homeostasis in soybean. Journal of Experimental Botany. 68: 4951-4967.
8)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
9)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
10)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;
11)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;
12)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;
13)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;
14)Liang CY, Tian J*, Liao H. 2013. Proteomics dissection of plant responses to mineral nutrient deficiency. Proteomics. 13:624-636;
15)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;
16)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;
17)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;
18)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;
二、授权专利:
1)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: ZL201310290864.7。授权日期:2015-11-18;
2)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:ZL201310290850.5。授权日期:2016-01-20;
3)专利名称:一种植物磷信号网络中耐低磷关键基因GmPHR25及其应用。发明人:田江、薛迎斌、朱胜男。专利号:ZL201710698636.1。授权日期:2020-02-21;
4)专利名称:一种调控根瘤生长基因GmSPX5及其应用。发明人:田江、薛迎斌、庄庆礼、廖红、梁翠月。申请专利号:ZL201810420355.4。授权日期:2020-12-29。
5)专利名称:GmMDH12基因在促进大豆结瘤固氮能力方面的应用。发明人:田江、陈志坚、廖红、梁翠月、白振龙。专利号:ZL201810421922.8。申请日期:2018-5-4。授权日期:2021-04-23;
三、出版著作:
1)Tian J and Liao H. 2015. The Role of intracellular and secreted purple acid phosphatases in plant phosphorus scavenging and recycling. Annual Plant Review. 48:265-288;