姓  名: 田志喜
    职  称: 研究员
    职  务:
    电话/传真: 86-10-64803672(O); 86-10-64801362(L)
    电子邮件: zxtian@genetics.ac.cn
    实验室主页: http://tianlab.genetics.ac.cn/
    研究方向: 大豆功能基因组

    简历介绍:

    田志喜,博士,研究员,博士生导师 

      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发育所博士学位。2007-2010年美国普渡大学博士后,2010-2011年普渡大学Research Geneticist。2012年度获“国家优秀青年基金”资助,2015年度获“国家杰出青年基金”资助。2012年获得“中国科学青年之星金奖”,2016年获得“第十四届中国青年科技奖”,2016年获得“中青年科技创新领军人才”,2020年获得“谈家桢生命科学创新奖”,2021年获得“科学探索奖”,2022年获“中欧大豆哈伯兰德奖”,2023年获第四届中国科学院“科苑名匠”。

    研究领域:

    研究方向:大豆功能基因组
            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。目前,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。
            我们课题组主要研究方向为大豆功能基因组研究,利用基因组学、分子遗传学、系统进化生物学等多组学联合的分析方法,对影响大豆产量、耐盐碱等重要农艺性状的网络调控系统进行解析,揭示调控大豆器官发生、种子发育、植株形态建成以及耐盐碱特性形成的内在机制,并致力于培育高产优质耐逆大豆新品种,为提升我国大豆生产能力做贡献。
    博士后和客座研究生招聘信息
            本实验室常年招生博士后和客座研究生,欢迎对大豆研究感兴趣、有志综合利用基因组学和功能组学解析重要农艺性状调控网络机理,并为我国大豆事业做贡献的优秀科研青年申请。
            欢迎各高校和研究单位同学报考本实验室博士。

    社会任职:

    获奖及荣誉:

    承担科研项目情况:

    代表论著:

    Research Articles
    (*Co-first author; **Corresponding author)
    Zhang Z*, Ma J*, Yang X, Liu Z, Liu Y., Liu X., Liang S., Duan Z., Wang Z., Yang X., Yan L., Zhang M., Liu S**. and Tian Z**. 2023. Natural allelic diversities of GmPrx16 confer drought tolerance in soybean. Plant Biotechnol J. DOI: 10.1111/pbi.14249.
    Liu Y*, Zhang Y*, Liu X*, Shen Y*, Tian D, Yang X, Liu S, Ni L, Zhang Z**, Song S**, Tian Z**. 2023. SoyOmics: A deeply integrated database on soybean multi-omics. Mol Plant 16:794-797.
    Ni L, Liu Y, Ma X, Liu T, Yang X, Wang Z, Liang Q, Liu S, Zhang M, Wang Z, Shen Y, and Tian Z**. 2023. Pan-3D genome analysis reveals structural and functional differentiation of soybean genomes. Genome Biol. 24:12.
    Ma X*, Fan L*, Zhang Z, Yang X, Liu Y, Ma Y, Pan Y, Zhou G, Zhang M, Ning H, Kong F, Ma J, Liu S**, and Tian Z**. 2023. Global dissection of the recombination landscape in soybean using a high-density 600K SoySNP array. Plant Biotechnol J. 21:606-620.
    Zhang J*, Liu S*, Liu CB, Zhang M, Fu XQ, Wang YL, Song T, Chao ZF, Han ML, Tian Z**, and Chao DY**. 2023. Natural variants of molybdate transporters contribute to yield traits of soybean by affecting auxin synthesis. Curr Biol. DOI: 10.1016/j.cub.2023.10.072.
    Liu Y*, Yi C*, Fan C*, Liu Q*, Liu S*, Shen L, Zhang K, Huang Y, Liu C, Wang Y, Tian Z**, and Han F**. 2023. Pan-centromere reveals widespread centromere repositioning of soybean genomes. Proc Natl Acad Sci USA 120:e2310177120.
    Chu D*, Zhang Z*, Hu Y, Fang C, Xu X, Yuan J, Zhang J, Tian Z**, Wang G**. 2023. Genome-wide scan for oil quality reveals a coregulation mechanism of tocopherols and fatty acids in soybean seeds. Plant Commun. 4:100598.
    Li Y, Wang C, Zheng L, Ma W, Li M, Guo Z, Zhao Q, Zhang K, Liu R, Liu Y, Tian Z, Bai Y, Zhong Y**, Liao H. 2023. Natural variation of GmRj2/Rfg1 determines symbiont differentiation in soybean. Curr Biol. 33:2478-2490.
    Yuan J, Ma L, Wang Y, Xu X, Zhang R, Wang C, Meng W, Tian Z, Zhou Y, and Wang G**. 2023. A recently evolved BAHD acetyltransferase, responsible for bitter soyasaponin A production, is indispensable for soybean seed germination. J Integr Plant Biol. doi: 10.1111/jipb.13553.
    Mao HC, Sun Y, Tao C, Deng X, Xu X, Shen Z, Zhang L, Zheng Z, Huang Y, Hao Y, Zhou G, Liu S, Li R, Guo K, Tian Z, Shen Q. 2023. Rhizosphere microbiota promotes the growth of soybeans in a saline-alkali environment under plastic film mulching. Plants 12:1889.
    Liang Q, Chen L, Yang X, Yang H, Liu S, Kou K, Fan L, Zhang Z, Duan Z, Yuan Y, Liang S, Liu Y, Lu X, Zhou G, Zhang M, Kong F**, and Tian Z**. 2022. Natural variation of Dt2 determines branching in soybean. Nat Commun. 13:6429.
    Duan Z*, Zhang M*, Zhang Z, Liang S, Fan L, Yang X, Yuan Y, Pan Y, Zhou G, Liu S, and Tian Z**. 2022. Natural allelic variation of GmST05 controlling seed size and quality in soybean. Plant Biotechnol J. 20:1807-1818.
    Liu Y*, Liu S*, Zhang Z, Ni L, Chen X, Ge Y, Zhou G, and Tian Z**. 2022. GenoBaits Soy40K: A highly flexible and low-cost SNP array for soybean studies. Sci China Life Sci. 65:1898-1901.
    Xia Z**, Zhai H*, Zhang Y, Wang Y, Wang L, Xu K, Wu H, Zhu J, Jiao S, Wan Z, Zhu X, Gao Y, Liu Y, Fan R, Wu S, Chen X, Liu J, Yang J, Song Q, and Tian Z**. 2022. QNE1 is a key flowering regulator determining the length of the vegetative period in soybean cultivars. Sci China Life Sci. 65:2472-2490.
    Hu D*, Li X*, Yang Z*, Liu S*, Hao D, Chao M, Zhang J, Yang H, Su X, Jiang M, Lu S, Zhang D, Wang L, Kan G, Wang H, Cheng H, Jiao W, Huang F**, Tian Z**, and Yu D**. 2022. Downregulation of a gibberellin 3β-hydroxylase enhances photosynthesis and increases seed yield in soybean. New Phytol. 235:502-517.
    Tong X*, Han MJ*, Lu K*, Tai S*, Liang S*, Liu Y*, Hu H, Shen J, Long A, Zhan C, Ding X, Liu S, Gao Q, Zhang B, Zhou L, Tan D, Yuan Y, Guo N, Li YH, Wu Z, Liu L, Li C, Lu Y, Gai T, Zhang Y, Yang R, Qian H, Liu Y, Luo J, Zheng L, Lou J, Peng Y, Zuo W, Song J, He S, Wu S, Zou Y, Zhou L, Cheng L, Tang Y, Cheng G, Yuan L, He W, Xu J, Fu T, Xiao Y, Lei T, Xu A, Yin Y, Wang J, Monteiro A, Westhof E, Lu C**, Tian Z**, Wang W**, Xiang Z**, Dai F**. 2022. High-resolution silkworm pan-genome provides genetic insights into artificial selection and ecological adaptation. Nat Commun. 13:5619.
    Imran M*, Liu T*, Wang Z*, Wang M, Liu S, Gao X, Wang A, Liu S, Tian Z, and Zhang M**. 2022. Nested miRNA secondary structure is a unique determinant of miR159 efficacy in Arabidopsis. Front Plant Sci. 13:905264.
    Imran M*, Liu T*, Wang Z*, Wang M, Liu S, Gao X, Wang A, Liu S, Tian Z, and Zhang M**. 2022. Evolutionary conservation of nested MIR159 structural microRNA genes and their promoter characterization in Arabidopsis thaliana. Front Plant Sci. 13:948751.
    Yu H*, Lin T*, Meng X*, Du H*, Zhang J*, Liu G, Chen M, Jing Y, Kou L, Li X, Gao Q, Liang Y, Liu X, Fan Z, Liang Y, Cheng Z, Chen M, Tian Z, Wang Y, Chu C, Zuo J, Wan J, Qian Q, Han B, Zuccolo A, Wing R A, Gao C**, Liang C**, and Li J**. 2021. A route to de novo domestication of wild allotetraploid rice. Cell 184: 1156-1170.
    Wang C, Ji W, Liu Y, Zhou P, Meng Y, Zhang P, Wen J, Mysore K, Zhai J, Young N, Tian Z, Niu L, Lin H**. 2021. The antagonistic MYB paralogs RH1 and RH2 govern anthocyanin leaf markings in Medicago truncatula. New Phytol. 229: 3330-3344.
    Liu Q, Jiao X, Meng X, Wang C, Xu C, Tian Z, Xie C, Li G, Li J, Yu H, Wang K**. 2021. FED: a web tool for foreign element detection of genome-edited organism. Sci China Life Sci. 64:167-170.
    Li X, Wang P, Zhang K, Liu S, Qi Z, Fang Y, Wang Y, Tian X, Song J, Wang J, Yang C, Sun X, Tian Z, Li WX, Ning H. 2021. Fine mapping QTL and mining genes for protein content in soybean by the combination of linkage and association analysis. Theor Appl Genet. 134:1095-1122.
    Liu Y*, Du H*, Li P, Shen Y, Peng H, Liu S, Zhou GA, Zhang H, Liu Z, Shi M, Huang X, Li Y, Zhang M, Wang Z, Zhu B, Han B, Liang C**, and Tian Z**. 2020. Pan-genome of wild and cultivated soybeans. Cell 182: 162-176.
    Wang S*, Liu S*, Wang J*, Yokosho K, Zhou B, Yu Y.C, Liu Z, Frommer W.B, Ma J.F, Chen L.Q**, Guan Y**, Shou H**, and Tian Z**. 2020. Simultaneous changes in seed size, oil content, and protein content driven by selection of SWEET homologues during soybean domestication. Natl Sci Rev. 7: 1776-1786.
    Liu S, Fan L, Liu Z, Yang X, Zhang Z, Duan Z, Liang Q, Imran M, Zhang M, and Tian Z**. 2020. A Pd1–Ps–P1 feedback loop controls pubescence density in soybean. Mol Plant 13: 1768-1783.
    Lu S*, Dong L*, Fang C*, Liu S*, Kong L*, Cheng Q*, Chen L*, Su T, Nan H, Zhang D, Zhang L, Wang Z, Yang Y, Yu D, Liu X, Yang Q, Lin X, Tang Y, Zhao X, Yang X, Tian C, Xie Q, Li X, Yuan X**, Tian Z**, Liu B**, Weller J.L**, and Kong F**. 2020. Stepwise selection on homeologous PRR genes controlling flowering and maturity during soybean domestication. Nat Genet. 52: 428-436.
    Dong X*, Wang Z*, Tian L, Zhang Y, Qi D, Huo H, Xu Ji, Li Z, Liao R, Shi M, Wahocho S-A, Liu C, Zhang S, Tian Z**, and Cao Y**. 2020. De novo assembly of a wild pear (Pyrus betuleafolia) genome. Plant Biotechnol J. 18:581-595.
    Zhu X, Pan Y, Liu Z, Liu Y, Zhong D, Duan Z, Tian Z, Zhu B**, and Zhou G**. 2020. Mutation of YL results in a yellow leaf with chloroplast RNA editing defect in soybean. Int J Mol Sci. 21:E4275.
    Tian X*, Zhang K*, Liu S, Sun X, Li X, Song J, Qi Z, Wang Y, Fang Y, Wang J, Jiang S, Yang C, Tian Z, Li WX**, and Ning H**. 2020. Quantitative trait locus analysis of protein and oil content in response to planting density in soybean (Glycine max [L.] Merri.) seeds based on SNP linkage mapping. Front Genet. 11: 563.
    Qi Z, Song J, Zhang K, Liu S, Tian X, Wang Y, Fang Y, Li X, Wang J, Yang C, Jiang S, Sun X, Tian Z, Li WX, Ning H**. 2020. Identification of QTNs controlling 100-seed weight in soybean using multi-locus genome-wide association studies. Front Genet. 11:689.
    Fang Y, Liu S, Dong Q, Zhang K, Tian Z, Li X, Li W, Qi Z, Wang Y, Tian X, Song J, Wang J, Yang C, Jiang S, Li WX**, and Ning H**. 2020. Linkage analysis and multi-locus genome-wide association studies identify QTNs controlling soybean plant height. Front Plant Sci. 11: 9.
    Song J, Sun X, Zhang K, Wang J, Yang C, Jiang S, Siyal M, Li X, Qi Z, Wang Y, Tian X, Fang Y, Tian Z, Li W**, and Ning H**. 2020. Identification of QTL and genes for pod number in soybean by linkage analysis and genome-wide association studies. Mol Breed 40: 60.
    Shen Y*, Du H*, Liu Y, Ni L, Wang Z, Liang C**, and Tian Z**. 2019. Update soybean Zhonghuang 13 genome to a golden reference. Sci China Life Sci. 62:1257-1260.
    Liu W*, Chen L*, Zhang S*, Hu F, Wang Z, Lyu J, Wang B, Xiang H, Zhao R, Tian Z**, Ge S**, and Wang W**. 2019. Decrease of gene expression diversity during domestication of animals and plants. BMC Evol Biol. 19:19.
    Wang M*, Li W*, Fang C*, Xu F*, Liu Y*, Wang Z, Yang R, Zhang M, Liu S, Lu S, Lin T, Tang J, Wang Y, Wang H, Lin H, Zhu B, Chen M, Kong F, Liu B, Zeng D, Jackson S**, Chu C**, and Tian Z**. 2018. Parallel selection on a dormancy gene during domestication of crops from multiple families. Nat Genet. 50: 1435-1441.
    Shen Y, Zhang J, Liu Y, Liu S, Liu Z, Duan Z, Wang Z, Zhu B, Guo YL, and Tian Z**. 2018. DNA methylation footprints during soybean domestication and improvement. Genome Biol. 19: 128.
    Shen Y, Liu J, Geng H, Zhang J, Liu Y, Zhang H, Xing S, Du J**, Ma S**, and Tian Z**. 2018. De novo assembly of a Chinese soybean genome. Sci China Life Sci. 61: 871-884.
    Xu R*, Duan P, Yu H, Zhou Z, Zhang B, Wang R, Li J, Zhang G, Zhuang S, Lyu J, Li N, Chai T, Tian Z, Yao S, and Li Y**. 2018. Control of grain size and weight by the OsMKKK10-OsMKK4-OsMAPK6 signaling pathway in rice. Mol Plant 11: 860-873.
    Zhang D*, Sun L*, Li S*, Wang W*, Ding Y, Swarm S, Li L, Wang X, Tang X, Zhang Z, Tian Z, J. Brown P, Cai C, Nelson R, and Ma J**. 2018. Elevation of soybean seed oil content through selection for seed coat shininess. Nat Plants 4: 30-35.
    Zhang K*, Liu S*, Li W, Liu S, Li X, Fang Y, Zhang J, Wang Y, Xu S, Zhang J, Song J, Qi Z, Tian X, Tian Z, Li W**, and Ning H**. 2018. Identification of QTNs controlling seed protein content in soybean using multi-locus genome-wide association studies. Front Plant Sci. 9:1690.
    Fang C*, Ma Y*, Wu S*, Liu Z, Wang Z, Yang R, Hu G, Zhou Z, Yu H, Zhang M, Pan Y, Zhou G, Ren H, Du W, Yan H, Wang Y, Han D, Shen Y, Liu S, Liu T, Zhang J, Qin H, Yuan J, Yuan X, Kong F, Liu B, Li J, Zhang Z**, Wang G**, Zhu B**, and Tian Z**. 2017. Genome-wide association studies dissect the genetic networks underlying agronomical traits in soybean. Genome Biol. 18:161.
    Lu S*, Zhao X*, Hu Y, * Liu S*, Nan H, Li X, Fang C, Cao D, Shi X, Kong L, Su T, Zhang F, Li S, Wang Z, Yuan X,. Cober E, Weller J, Liu B, Hou X**, Tian Z**, and Kong F**. 2017. Natural variation at the soybean J locus improves adaptation to the tropics and enhances yield. Nat Genet. 49:773-779.
    Zeng D*, Tian Z*, Rao Y, Dong G, Yang Y, Huang L, Leng Y, Xu J, Sun C, Zhang G, Hu J, Zhu L, Gao Z, Hu X, Guo L, Xiong G, Wang Y, Li J**, and Qian Q**. 2017. Rational design of high-yield and superior-quality rice. Nat Plants 3:17031.
    Zou Y*, Hou X*, Wu Q, Chen J, Li Z, Han T, Niu X, Yang L, Xu Y, Zhang J, Zhang F, Tan D, Tian Z, Gu H, and Guo Y**. 2017. Adaptation of Arabidopsis thaliana to the Yangtze River basin. Genome Biol. 18:239.
    Chu S*, Wang J*, Zhu Y*, Liu S, Zhou X, Zhang H, Wang C, Yang W, Tian Z, Cheng H, and Yu D**. 2017. A R2R3-type MYB transcription factor GmMYB29 regulates iso?avonoid biosynthesis in soybean. PLoS Genet. 13: e1006770.
    Li Q, Fang C, Duan Z, Liu Y, Qin H, Zhang J, Sun P, Li W, Wang G, and Tian Z**. 2016. Functional conservation and divergence of GmCHLI genes in polyploid soybean. Plant J. 88: 584-596.
    Cao K*, Zhou Z*, Wang Q, Guo J, Zhao P, Zhu G, Fang W, Chen C, Wang X, Wang X, Tian Z**, and Wang L**. 2016. Genome-wide association study of 12 agronomic traits in peach. Nat Commun. 7:13246.
    Takeshima R, Hayashi T, Zhu J, Zhao C, Xu M, Yamaguchi N, Sayama T, Ishimoto M, Kong L, Shi X, Liu B, Tian Z, Yamada T, Kong F**, and Abe J**. 2016. A soybean quantitative trait locus that promotes flowering under long days is identified as FT5a, a FLOWERING LOCUS T ortholog. J Exp Bot. 67: 5247-5258.
    Fang C, Ma Y, Yuan L, Wang Z, Yang Y, Zhou Z, Liu T, and Tian Z**. 2016. Chloroplasts DNA underwent independent selection from nuclear genes during soybean domestication and improvement. J Genet Genomics 43: 217-221.
    Liu T, Fang C, Ma Y, Shen Y, Li C, Li Q, Wang M, Liu S, Zhang J, Zhou Z, Yang R, Wang Z, and Tian Z**. 2016. Global investigation of the coevolution of MIRNA genes and microRNA targets during soybean domestication. Plant J. 85: 396-409.
    Zhou Z*, Jiang Y*, Wang Z*, Gou Z*, Lyu J*, Li W*, Yu Y, Shu L, ZhaoY, Ma Y, Fang C, Shen Y, Liu T, Li C, Li Q, Wu M, Wang M, Wu Y, Dong Y, Wan W, Wang X, Ding Z, Gao Y, Xiang H, Zhu B, Lee SH, Wang W**, and Tian Z**. 2015. Resequencing 302 wild and cultivated accessions identifies genes related to domestication and improvement in soybean. Nat Biotechnol. 33: 408-414.
    Wang Z*, Zhou Z*, Liu Y*, Liu T, Li Q, Ji Y, Li C, Fang C, Wang M, Wu M, Shen Y, Tang T**, Ma J**, and Tian Z**. 2015. Functional evolution of phosphatidylethanolamine-binding proteins in soybean and Arabidopsis. Plant Cell 27: 323-336.
    Yang K*, Tian Z*, Chen C*, Luo L*, Zhao B, Wang Z, Yu L, Li Y, Sun Y, Li W, Chen Y, Li Y, Zhang Y, Ai D, Zhao J, Shang C, Ma Y, Wu B, Wang M, Gao L, Sun D, Zhang P, Guo F, Wang W, Li Y, Wang J, Varshney RK**, Wang J**, Ling HQ**, and Wan P**. 2015. Genome sequencing of adzuki bean (Vigna angularis) provides insight into high starch and low fat accumulation and domestication. Proc Natl Acad Sci USA 112: 13213-13218.
    Bai C*, Guo P*, Zhao Q, Lv Z, Zhang S, Gao F, Gao L, Wang Y, Tian Z, Wang J, Yang F, and Liu C**. 2015. Protomer roles in chloroplast chaperonin assembly and function. Mol Plant 8: 1478-1492.
    Shen Y*, Zhou Z*, Wang Z, Li W, Fang C, Wu M, Ma Y, Liu T, Kong LA, Peng DL, and Tian Z**. 2014. Global dissection of alternative splicing in paleopolyploid soybean. Plant Cell 26: 996-1008.
    Fang C*, Li C*, Li W, Wang Z, Zhou Z, Shen Y, Wu M, Wu Y, Li G, Kong LA, Liu C, Jackson SA**, and Tian Z**. 2014. Concerted evolution of D1 and D2 to regulate chlorophyll degradation in soybean. Plant J. 77, 700-712.
    Zhang F*, ShenY*, Sun S*, Guo J*, Li C, Wu C, Li Q, Nian H, Huang X**, Tian Z**, and Han T**. 2014. Genome-wide gene expression analysis in a dwarf soybean mutant. Plant Genet Resour. 12: S70-S73.
    Ping J*, Liu Y*, Sun L*, Zhao M, Li Y, She M, Sui Y, Lin F, Liu X, Tang Z, Nguyen H, Tian Z, Qiu L, Nelson RL, Clemente TE, Specht JE, and Ma J**. 2014. Dt2 is a gain-of-function MADS-domain factor gene that specifies semideterminacy in soybean. Plant Cell 26:2831-2842.
    Zhou Z*, Wang Z*, Li W*, Fang C, Shen Y, Li C, Wu Y, and Tian Z**. 2013. Comprehensive analyses of microRNA genes evolution in paleopolyploid soybean genome. Plant J. 76: 332-344.
    Fang C, Li W, Li G, Wang Z, Zhou Z, Ma Y, Shen Y, Li C, Wu Y, Zhu B, Yang W, and Tian Z**. 2013. Cloning of Ln gene through combined approach of map-based cloning and association study in soybean. J Genet Genomics 40: 93-96.
    Reviews
    Liu Y, and Tian Z**. 2023. Temperature driven antagonistic fate determination by two bHLH transcription factors: dormancy or germination. Sci China Life Sci. 66:1208-1209.
    Ni L, and Tian Z**. 2023. Toward cis-regulation in soybean: a 3D genome scope. Mol Breed 43, 28.
    Shi J, Tian Z, Lai J, Huang X**. 2023. Plant pan-genomics and its applications. Mol Plant 16:168-186.
    Liu Y, and Tian Z**. 2022. Super graph-based pan-genome: Bringing rice functional genomic study into a new dawn. Mol Plant 15:1409-1411.
    Liu Y, and Tian Z**. 2022. Convergent selection of a gene in cereals leads to grain yield upgradation. Sci China Life Sci. 65:1479-1480.
    Shen Y, Zhou G, Liang C, Tian Z**. 2022. Omics-based interdisciplinarity is accelerating plant breeding. Curr Opin Plant Biol. 66:102167.
    Zhang M, Liu S, Wang Z, Yuan Y, Zhang Z, Liang Q, Yang X, Duan Z, Liu Y, Kong F, Liu B, Ren B, and Tian Z**. 2022. Progress in soybean functional genomics over the past decade. Plant Biotechnol J. 20:256-282.
    Tian Z*, Wang J-W*, Li J**, and Han B**. 2021. Designing future crops: challenges and strategies for sustainable agriculture. Plant J. 105:1165-1178.
    Liu S, Zhang M, Feng F, and Tian Z**. 2020. Toward a “green revolution” for soybean. Mol Plant 13:688-697.
    Liu Y, Tian Z**. 2020. From one linear genome to a graph-based pan-genome: a new era for genomics. Sci China Life Sci. 63:1938-1941.
    Chen E, Huang X, Tian Z, Wing RA, and Han B. 2019. The genomics of Oryza species provides insights into rice domestication and heterosis. Annu Rev Plant Biol. 70:639-665.
    Wang Z, and Tian Z**. 2015. Genomics progress will facilitate molecular breeding in soybean. Sci China Life Sci. 58:813-815.
    冯锋, 张志楠, 谷勇哲, 何俊卿, 田志喜**. 2022. 提升我国大豆供给能力路径刍议. 中国科学院院刊 37:1281-1289.
    冯锋**, 战勇, 田志喜. 2020. 新疆地区发展大豆生产的可行性和初步建议. 植物学报 55:199-204.
    梁翰文, 吕慧颖, 葛毅强, 魏珣, 邓向东, 杨维才, 田志喜**. 2018. 作物育种关键技术发展态势. 植物遗传资源学报 3:390-398.
    吕慧颖, 王道文, 葛毅强, 魏珣, 邓向东, 杨维才, 田志喜**. 2018. 大豆育种行业创新动态. 植物遗传资源学报 3:464-467.
    田志喜**, 刘宝辉, 杨艳萍, 李明, 姚远, 任小波, 薛勇彪. 2018. 我国大豆分子设计育种成果与展望. 中国科学院院刊 9:915-922.
    薛勇彪**, 种康, 韩斌, 桂建芳, 王台, 傅向东, 何祖华, 储成才, 田志喜, 程祝宽, 林少扬. 2015. 开启中国设计育种新篇章——“分子模块设计育种创新体系”战略性先导科技专项进展. 中国科学院院刊 3:393-402.
    审定品种
    科豆23,津审豆20230002,天津市农作物品种审定委员会
    科麦2号,国审麦20230040,农业农村部国家农作物品种审定委员会
    科豆103,黑审豆2023Z0017,黑龙江省农作物品种审定(认定)委员会
    科豆24,豫审豆20220007,河南省主要农作物品种审定委员会
    科豆10,国审豆20200033,农业部国家农作物品种审定委员会
    科豆7号,京审豆20180002,北京市农作物品种审定委员会
    科豆17,豫审豆20180008,河南省主要农作物品种审定委员会
    晋大88号,晋审豆20170004,山西省农作物品种审定委员会
    科豆2号,豫审豆2015003,河南省农作物品种审定委员会
    授权专利
    ZL202210497737.3 调控大豆分枝数的基因及其用途 发明人:田志喜,梁前进,刘书林,张敏,周国安,潘毅,路兴通
    ZL202111604132.1 一株大豆根瘤菌及其应用 发明人:郑泽慧, 郭凯,王庆玲,田志喜,任宗明,霍毅欣,刘书林,黄艳华,李哲,郝永任
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