田志喜查看源代码讨论查看历史
| 田志喜 |
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田志喜,男,1997年获河北农业大学学士学位,2000获河北农业大学硕士学位,2007年获中国科学院遗传所博士学位。2007-2010年美国普渡大学博士后,2010-2011年普渡大学Research Geneticist,2011年入选中科院"百人计划"。 [1]
主要研究方向为大豆功能基因组研究,重点对影响大豆产量、品质等重要农艺性状的网络调控系统进行解析,并致力于培育高产优质的大豆新品种。 [2]
基本信息
人物说明----中科院"百人计划"
民 族 ---- 汉族
国 籍 ---- 中国
职 业 ---- 教育科研工作者,科学家
主要成就----对影响大豆产量、品质等重要农艺性状的网络调控系统进行解析
毕业院校----河北农业大学,美国普渡大学
主要研究
大豆( Glycine max ) 原产中国,由祖先野生大豆(Glycine soja ) 长期定向选择、改良驯化而成。大豆是重要的粮食和油料作物,在我国已有5000多年的栽培历史。
中国已由大豆原产国和产豆大国转变为世界上最大的大豆进口国,大豆危机已经影响到我国的粮食安全。
我们课题组利用关联分析、图位克隆和转基因手段,并结合比较基因组分析方法对影响大豆产量和品质的网络调控系统进行系统分析,揭示调控大豆种子发育、植株形态建成以及品质形成的内在机制,为大豆分子育种奠定基础。
出版物
1.Tian, Z., Yu, Y., Lin, F., Yu, YS., SanMiguel, JP., Wing, AR., McCouch, RS., Ma, J., Jackson, AS. 2011. Exceptional lability of a genomic complex in rice and its close relatives. BMC Genomics.12:124
2.Yan, C.*, Tian, Z.*, Fang, Y., Yang, Y., Li, J., Zeng, S., Gu, S., Xu, C., Tang, S., Gu, M. 2010. Genetic dissection of paste viscosity characteristics in glutinous rice (Oryza sativa L.). Theor Appl Genet 12: 63-76 (*Contribute equally)
3.Tian, Z.*, Yan, C.*, Qian, Q., Yan, S., Xie, H., Wang, F., Xu, J., Liu, G., Wang, Y., Liu, Q., Tang, S., Li, J., Gu, M. 2010. Development of gene-tagged molecular markers for starch synthesis-related genes in rice. Chinese Sci Bull 55: 2591-2601
4.Du, J., Tian, Z., Hans, C., Laten, H., Jackson, S., Cannon, S., Shoemaker, R., Ma, J. 2010. Evolutionary conservation, diversity and specificity of LTR-retrotransposons in flowering plants: insights from genome-wide analysis and multi-specific comparison. Plant J 63: 584-598
5.Tian, Z.*, Wang, X.*, Lee, R., Li, Y., Specht, J., Nelson, R., McClean, P., Qiu, L., and Ma, J. 2010. Artificial selection for determinate growth habit in soybean. Proc Natl Acad Sci USA 107: 8563-8568
6.Du, J., Grant, D., Tian, Z., Nelson, R.T., Zhu, L., Shoemaker, R.C., and Ma, J. 2010. SoyTEdb: a comprehensive database of transposable elements in the soybean genome. BMC Genomics 11: 113
7.Du, J., Tian, Z., Schmutz, J., Bowen, N.J., Shoemaker, R.C., and Ma, J. 2010. Bifurcation and enhancement of autonomous-nonautonomous retrotransposon partnership through LTR swapping in soybean. The Plant Cell 22: 48-61
8.Schmutz, J., Cannon, S.B., Schlueter, J., Ma, J., ... Du, J., Tian, Z., Zhu, L.… (many others), Rokhsar, D., Shoemaker, R.C., Jackson, S.A. 2010. Genome sequence of the paleopolyploid soybean. Nature 463: 178-183
9.Tian, Z.*, Qian, Q.*, Liu, Q.*, Yan, M., Liu, X., Yan, C., Liu, G., Gao, Z., Tang, S., Zeng, D., Wang, Y., Yu, J., Gu, M. and Li, J. 2009. Allelic diversities in rice starch biosynthesis lead to a diverse array of rice eating and cooking qualities. Proc Natl Acad Sci USA 106: 21760-21765.
10.Tian, Z.*, Rizzon, C.*, Du, J., Liu, Z., Bennetzen, J. L., Gaut, B., Jackson, S. A., and Ma, J. 2009. Do genetic recombination and gene density shape the pattern of DNA elimination in rice LTR-retrotransposons? Genome Res 19:2221-2230.
11.Wu, J.*, Fujisawa, M.*, Tian, Z.*, Yamagata, H., Kamiya, K., Shibata, M., Hosokawa, S., Ito, Y., Hamada, M., Katagiri, S., Kurita, K., Yamamoto, M., Kikuta, A., Machita, K., Karasawa, W., Kanamori, H., Namiki, N., Mizuno, H., Ma, J., Sasaki, T., and Matsumoto, T. 2009. Comparative analysis of complete orthologous centromeres from two subspecies of rice reveals rapid variation of centromere organization and structure. Plant J 60:805-819 (*Contribute equally)