刘登才，博士，教授。聚焦于小麦外源基因的发掘与育种利用研究。发现了控制染色体自动加倍、促进染色体重组的遗传操作工具新位点，并用于染色体工程材料创制。建立了“育种原始种质-顶交-两段选择”渗入育种体系，利用野生资源选育蜀麦1963（含灌浆快、早熟、高蛋白基因NAM-B1）、蜀麦1675（YrAS2388）、蜀麦1868（Yr15和Pm21）、蜀麦830（重穗）、蜀麦114（优质弱筋）等小麦新品种。获国家自然科学奖二等奖（第5）、四川省科技进步一等奖5项（第1、2、3、8、10）。入选新世纪国家百千万人才工程、中国科学院百人计划、“天府青城计划”杰出科学家等。

招收作物遗传育种研究生、博士后。Email：dcliu7@sicau.edu.cn

Reviews and book chapters

李生科等.基于原始种质的小麦育种技术体系.四川农业大学学报, 2023, 6: 961-972.

郝明等.渗入杂交与小麦杂种优势.科学通报, 2022, 67: 3165-3174.

郝明等.合成六倍体小麦的遗传育种.植物遗传资源学报，2022, 23: 40-48.

刘登才等.小麦族的基因组显性及其育种学意义.作物学报, 2020, 46: 1465-1473.

Dengcai Liu.Towards cultivar-oriented gene discovery for better crops. The Crop Journal, 2024, 12: 670–675.

Ming Hao et al.The resurgence of introgression breeding, as exemplified in wheat improvement. Frontiers in Plant Science 2020,11: 252.

Dengcai Liu et al.Wheat breeding in the hometown of Chinese Spring. The Crop Journal 2018, 6: 82-90

Li A et al.Synthetic hexaploid wheat: yesterday, today, and tomorrow. Engineering 2018,4: 552-558.

Aili Li et al.Making the bread: insights from newly synthesized allohexaploid Wheat. Molecular Plant, 2015, 8: 847-859.

Yang W et al.Synthetic hexaploid wheat and its utilization for wheat genetic improvement in China. J Genet Genomics 2019, 36: 539-546.

Chi Yen, Junliang Yang et al.Biosystematics of Triticeae, Volume I.Triticum-Aegilopscomplex. Springer, 2020, p1-265.

Dengcai Liu et al.Allopolyploidy and interspecific hybridization for wheat improvement. In: Annaliese S. Mason ed. Polyploidy and Hybridization for Crop Improvement. CRC Press, 2016, p27-52.

Dengcai Liu et al.Distant Hybridization: A tool for interspecific manipulation of chromosomes.In Alien Gene Transfer in Crop Plants, Volume 1. Springer New York, 2014, p25-42.

Research papers

Yanling Hu et al.A head-to-head NLR gene pair from wild emmer confers stripe rust resistance in wheat.Nature Genetics,2025,https://doi.org/10.1038/s41588-025-02207-0

Cavalet-Giorsa E. et al. Origin and evolution of the bread wheat D genome.Nature,2024, 633: 848–855.

Li YQ et al. Identification and fine-mapping ofQYrAS286-2BLconferring adult-plant resistance to stripe rust in cultivated emmer wheat.Theoretical and Applied Genetics,2024,137:5

Wang F et al. Pyramiding of adult-plant resistance genes enhances all-stage resistance to wheat stripe rust.Plant Disease,2023,107:879-885

Gaurav K. et al. Population genomic analysis ofAegilops tauschiiidentifies targets for bread wheat improvement.Nature Biotechnology,2022, 40, 422–431.

Li A et al. Wheat breeding history reveals synergistic selection of pleiotropic genomic sites for plant architecture and grain yield.Molecular Plant,2022, 15:16.

Chaozhong Zhang et al. An ancestral NB-LRR with duplicated 3’UTRs confers stripe rust resistance in wheat and barley.Nature Communications,2019, 10: 4023.

Ming Haoet al. A breeding strategy targeting the secondary gene pool of bread wheat: introgression from a synthetic hexaploid wheat.Theoretical and Applied Genetics, 2019, 132: 132:2285-2294

Chaolan Fan et al. Genetic mapping of a major QTL promoting homoeologous chromosome pairing in a wheat landrace.Theoretical and Applied Genetics, 2019, 132:2155-2166

Li A.et al. mRNA and small RNA transcriptomes reveal insights into dynamic homoeolog regulation of allopolyploid heterosis in nascent hexaploid wheat.The Plant Cell,2014,26:1878-1900.