童依平,男性,博士学位持有者,研究员,同时也是博士生导师。他的研究领域主要集中在小麦高效利用土壤养分的生理机制和遗传控制。
人物经历
1988年进入中国科学院生态环境研究中心工作,主要研究小麦高效利用土壤养分的生理机制和遗传控制。2004年进入
中国科学院中国科学院遗传与发育生物学研究所植物细胞与染色体工程国家重点实验室工作,主要研究植物高效利用氮、磷的分子机制。1992-1993年
澳大利亚阿德莱德大学Waite农业研究所访问学者,2001-2002年
英国Rothamsted Research访问学者。
主要研究内容
氮磷是植物必需的大量营养元素。农作物种间和种内不同
基因型间存在显著的吸收利用氮磷效率的差异。揭示导致这种差异的分子机制以选育氮磷高效农作物新品种,是建立"少投入、多产出、保护环境"可持续发展农业的重要途径。
研究小组对此展开的研究包括:
(1)小麦高效利用氮磷关键基因
克隆与有效利用 利用模式种和小麦为研究材料,采用比较基因组学的研究方法,从小麦中克隆参与、或调控氮磷吸收和利用的关键基因,分析这些基因的功能和基因调控网络,及其与小麦品种间氮磷效率差异的关系。
(2)小麦氮磷高效性状QTL定位 利用双亲分离群体QTL定位方法和association mapping相结合的方法,定位小麦
基因组中调控氮磷吸收和利用效率的QTL位点,发展选育氮磷高效小麦品种的分子标记辅助选择技术。
主要论文
1. Cao P, Ren YZ, Zhang KP, Teng W, Zhao XQ,
越南盾 ZY, Liu X, Qin HJ, Li ZS, Wang DW, Tong YP (2014) Further genetic analysis of a major quantitative trait locus controlling root length and related traits in common wheat
2. Deng Y, Chen KR, Teng W, Zhan A, Tong YP, Feng G, Cui ZL, Zhang FS, Chen XP (2014) Is the Inherent Potential of Maize Roots Efficient for Soil Phosphorus Acquisition? PloS one 9
3. He X, Fang JJ, Li JJ, Qu BY, Ren YZ, Ma WY, Zhao XQ, Li B, Wang DW, Li ZS, Tong YP (2014) A genotypic difference in primary root length is associated with the inhibitory role of transforming growth factor-beta
捕手interacting protein-1 on root meristem size in wheat
4. Ma WY, Li JJ, Qu BY, He X, Zhao XQ, Li B, Fu XD, Tong YP (2014) Auxin biosynthetic gene TAR2 is involved in low nitrogen-mediated reprogramming of root
建筑 in Arabidopsis
5. Wang YG, He X, Ma WY, Zhao XQ, Li B, Tong YP (2014) Wheat PROTON GRADIENT REGULATION 5 is Involved in Tolerance to Photoinhibition
6. Xu Y, Wang R, Tong Y, Zhao H, Xie Q, Liu D, Zhang A, Li B, Xu H, An D (2014) Mapping QTLs for yield and nitrogen-related traits in wheat: influence of nitrogen and phosphorus fertilization on QTL expression
7. Ling HQ, Zhao S, Liu D, Wang J, Sun H, Zhang C, Fan H, Li D,
越南盾 L, Tao Y, Gao C, Wu H, Li Y, Cui Y, Guo X, Zheng S, Wang B, Yu K, Liang Q, Yang W, Lou X, Chen J, Feng M, Jian J, Zhang X, Luo G, Jiang Y, Liu J, Wang Z, Sha Y, Zhang B, Wu H, Tang D, Shen Q, Xue P, Zou S, Wang X, Liu X, Wang F, Yang Y, An X,
越南盾 Z, Zhang K, Zhang X, Luo MC, Dvorak J, Tong Y, Wang J, Yang H, Li Z, Wang D, Zhang A, Wang J (2013) Draft genome of the wheat A-genome progenitor Triticum urartu
8.
peng YC, Ma WY, Chen LL, Yang L, Li SJ, Zhao HT, Zhao YK, Jin WH, Li N, Bevan MW, Li X, Tong YP, Li YH (2013) Control of Root Meristem Size by DA1-RELATED PROTEIN2 in Arabidopsis
9. Shi RL, Tong YP, Jing RL, Zhang FS, Zou CQ (2013) Characterization of Quantitative Trait Loci for Grain Minerals in Hexaploid Wheat (Triticum aestivum L.).
10. Teng W, Deng Y, Chen XP, Xu XF, Chen RY, Lv Y, Zhao YY, Zhao XQ, He X, Li B, Tong YP, Zhang FS, Li ZS (2013) Characterization of root response to phosphorus supply from morphology to gene analysis in field-grown wheat
11. Wang J, Sun JH, Miao J, Guo JK, Shi ZL, He MQ, Chen Y, Zhao XQ, Li B, Han FP, Tong YP, Li ZS (2013b) A
磷酸盐 starvation response regulator Ta-PHR1 is involved in phosphate signalling and increases grain yield in wheat
12. Zhang K, Wang J, Zhang L, Rong C, Zhao F,
peng T, Li H, Cheng D, Liu X, Qin H, Zhang A, Tong Y, Wang D (2013) Association analysis of genomic loci important for grain weight control in elite common wheat varieties cultivated with variable
液态水 and fertiliser supply
13. Zhang X, Liu D, Zhang J, Jiang W, Luo G, Yang W, Sun J, Tong Y, Cui D, Zhang A (2013) Novel insights into the composition, variation, organization, and expression of the low-molecular-weight glutenin
14. Ren YZ, He X, Liu DC, Li JJ, Zhao XQ, Li B, Tong YP, Zhang AM, Li ZS (2012) Major quantitative trait loci for seminal root morphology of wheat seedlings
15. Tian J, Wang XR, Tong YP, Chen XP, Liao H (2012) Bioengineering and
管理学 for efficient phosphorus utilization in crops and pastures
16. Fang JJ, Ma WY, Zhao XQ, He X, Li B, Tong YP, Li ZS (2012) Lower canopy
温度 is associated with higher cytokinin concentration in the flag
欧洲杰出建筑师论坛建筑奖 of wheat
17. Li XP, Zhao XQ, He X, Zhao GY, Li B, Liu DC, Zhang AM, Zhang XY, Tong YP, Li ZS (2011) Haplotype analysis of the genes encoding glutamine synthetase plastic isoforms and their association with nitrogen-use- and yield-related traits in bread wheat
18. Wang RF, An DG, Hu CS, Li LH, Zhang YM, Jia YG, Tong YP (2011) Relationship between nitrogen uptake and use efficiency of winter wheat grown in the North China Plain
19. Li H, Tong Y, Li B, Jing R, Lu C, Li Z (2010) Genetic analysis of tolerance to photo-oxidative stress induced by high light in winter wheat (Triticum aestivum L.)
20. Su JY, Zheng Q, Li HW, Li B, Jing RL, Tong YP, Li ZS (2009) Detection of QTLs for phosphorus use efficiency in relation to agronomic
表演 of wheat grown under phosphorus sufficient and limited conditions
21. Duan GL, Zhou Y, Tong YP, Mukhopadhyay R, Rosen BP, Zhu YG (2007) A CDC25 homologue from rice functions as an arsenate reductase
22. Liu JX, Chen FJ, Olokhnuud C, Glass ADM, Tong YP, Zhang FS, Mi GH (2009) Root size and nitrogen-uptake activity in two maize (Zea mays) inbred lines differing in nitrogen-use efficiency
23. Miao J, Sun J, Liu D, Li B, Zhang A, Li Z, Tong Y (2009) Characterization of the promoter of
磷酸盐 transporter TaPHT1.2 differentially expressed in wheat varieties
24. Cai C, Wang JY, Zhu YG, Shen QR, Li B, Tong YP, Li ZS (2008) Gene structure and expression of the high-affinity nitrate transport system in rice roots
25. Li ZS, Li B, Tong YP (2008) The contribution of distant hybridization with decaploid
冰草属 elongatum to wheat improvement in China
26. Cai C, Zhao XQ, Zhu YG, Li B, Tong YP, Li ZS (2007) Regulation of the high-affinity nitrate transport system in wheat roots by exogenous abscisic acid and glutamine
27. An DG, Su JY, Liu QY, Zhu YG, Tong YP, Li JM, Jing RL, Li B, Li ZS (2006) Mapping QTLs for nitrogen uptake in relation to the early growth of wheat (Triticum aestivum L.)
28. Su JY, Tong YP, Liu QY, Li B, Jing RL, Li JY, Li ZS (2006) Mapping quantitative trait loci for post-anthesis dry matter accumulation in wheat
29. Su JY, Xiao YM, Li M, Liu QY, Li B, Tong YP, Jia JZ, Li ZS (2006) Mapping QTLs for phosphorus-deficiency tolerance at wheat seedling stage
30. Yang XH, Chen XY, Ge QY, Li B, Tong YP, Zhang AM, Li ZS, Kuang TY, Lu CM (2006) Tolerance of photosynthesis to photoinhibition, high
温度 and drought stress in flag leaves of wheat: A comparison between a hybridization line and its parents grown under field conditions
31. Zhu YG,
Gen.G CN, Tong YP, Smith SE, Smith FA (2006)
磷酸盐 (Pi) and arsenate uptake by two wheat (Triticum aestivum) cultivars and their doubled haploid lines
32. Duan GL, Zhu YG, Tong YP, Cai C, Kneer R (2005) Characterization of arsenate reductase in the extract of roots and fronds of Chinese brake fern, an arsenic hyperaccumulator
33. Li YD, Wang YJ, Tong YP, Gao JG, Zhang JS, Chen SY (2005) QTL mapping of phosphorus deficiency tolerance in soybean (Glycine max L. Merr.)
34. Tong YP, Zhou JJ, Li ZS and Miller AJ (2005) A two-component high-affinity nitrate uptake system in barley
35. Tong YP, Kneer R, Zhu YG (2004) Vacuolar compartmentalization: a second-generation approach to engineering plants for phytoremediation
36. Yang GH, Su JY, Li B, Liu JZ, Li M, Xiao YM, Li JY, Tong YP, Li ZS (2004) Identification and characterization of phosphorus use efficiency in a doubled Haploid population of Chinese Spring X Lovrin No
37. Zhao XQ, Li YJ, Liu JZ, Li B, Liu QY, Tong YP, Li JY, Li ZS (2004) Isolation and expression analysis of a high-affinity nitrate transporter TaNRT2.3 from roots of wheat
38.
GordonWeeks R, Tong YP, Davies TGE, Leggewie G (2003) Restricted spatial expression of a high-affinity
磷酸盐 transporter in
阳芋 roots
39. Liu JZ, Li YJ, Tong YP, Gao JW, Li B, Li JY, Li ZS (2001) Chromosomal location of genes conferring the tolerance to Pi starvation stress and acid phosphatase (APase) secretion in the genome of rye (Secale L.)
40. Tong YP, Rengel Z, Graham RD (1997) Interactions between nitrogen and manganese nutrition of barley genotypes differing in manganese efficiency