刘登才 更新日期:2024-09-14
刘登才,男,1970年出生,博士导师
工作单位 校领导
行政职务 副校长
单位电话 028-82690004
电子邮箱 dcliu7@sicau.edu.cn
招生专业 【博士】:090102作物遗传育种095100农业,【学硕】:090102作物遗传育种,【专硕】:095131农艺与种业
◆个人简历
四川农业大学1988级学士、1992级硕士、1995级博士。1999-2001年九寨沟县科技副县长,2002-2003年美国南塔可他州立大学访问学者。2002年9月小麦研究所副所长,2010年3月小麦研究所党总支书记、副所长,2010年12月小麦研究所党总支书记、所长,2013年3月小麦研究所所长。2019年3月任党委常委,2019年4月任副校长。

研究远缘杂种和异源多倍化过程的遗传学行为,为小麦外源基因渗入育种提供技术方案。近期聚焦于两个主要问题。一是建立了“双顶交-两段选择”渗入育种技术,较好解决了原始材料育种利用存在的选择效率低的难题,利用新技术选育出蜀麦969、蜀麦830、蜀麦580、蜀麦114、蜀麦1675、蜀麦1868、蜀麦1963等渗入品种,广泛用于小麦生产。二是致力于条锈病抗病基因的多样化布局,选育推广的新品种含野生物种的YrAS2388、Yr15等抗病基因。

获四川省教学成果一等奖1项,培养毕业研究生60余名,1篇论文获全国优秀博士论文提名论文。主持获得四川省科技进步一等奖1项,主研获国家自然科学二等奖1项、四川省科技进步一等奖4项。曾入选新世纪国家百千万人才工程、中国科学院百人计划、天府创新领军人才、四川省学术与技术带头人,享受国务院政府特殊津贴专家。中国作物学会理事,四川省作物学会副理事长。
◆科研项目
蜀麦969(2013年审定)、蜀麦51(2013年审定) 郑有良、刘登才、魏育明、张连全、王际睿、颜泽洪、陈国跃、代寿芬、江千涛. 小麦重要育种目标性状基因的鉴定与利用,2011年四川省科技进步一等奖. 课题: 1. 国家农业科技成果转化资金项目,高产抗病强筋小麦新品种蜀麦969的试验示范, 2014/07-2016/12 2. 四川省麦类作物产业体系创新团队, 2014/01-2018/12、50万、在研、岗位专家。 3. 国家自然科学基金面上项目,31271723、未减数配子快速固定小麦-黑麦
◆发表论文
综述(Reviews)

渗入杂交与小麦杂种优势. 科学通报 2022, 26:3165-3174.

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

小麦族的基因组显性及其育种学意义. 作物学报 2020, 46:1465.

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

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

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

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

Synthetic hexaploid wheat and its utilization for wheat genetic improvement in China. J Genet Genomics 2009, 36: 539-546.

Chi Yen, Junliang Yang (著), 2020. Biosystematics of Triticeae, Volume I. Triticum-Aegilops complex. Springer, p1-265.

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

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

Published papers

Wheat breeding history reveals synergistic selection of pleiotropic genomic sites for plant architecture and grain yield. Molecular Plant 2022, https://doi.org/10.1016/j.molp.2022.01.004

Population genomic analysis of Aegilops tauschii identifies targets for bread wheat improvement. Nature Biotechnology. 2021, doi: 10.1038/s41587-021-01058-4.

The wheat AGL6-like MADS-box gene is a master regulator for floral organ identity and a target for spikelet meristem development manipulation. Plant Biotech J. 2021, doi: 10.1111/pbi.13696

Some characteristics of crossing over in induced recombination between chromosomes of wheat and rye. Plant J. 2021, 105: 665-1676.

Identification of a recessive gene YrZ15-1370 conferring adult plant resistance to stripe rust in wheat-Triticum boeoticum introgression line. Theor Appl Genet. 2021, 134: 2891-2900

Chromosome stability of synthetic-natural wheat hybrids. Front Plant Sci. 2021, 12: 654382.

A transcriptomic view of the ability of nascent hexaploid wheat to tolerate aneuploidy. BMC Plant Biology 2020, 20:97.

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

A breeding strategy targeting the secondary gene pool of bread wheat: introgression from a synthetic hexaploid wheat. Theor Appl Genet, 2019, 132: 132:2285-2294

Genetic mapping of a major QTL promoting homoeologous chromosome pairing in a wheat landrace. Theor Appl Genet, 2019, 132:2155-2166

The draft genome of a wild barley genotype reveals its enrichment in genes related to biotic and abiotic stresses compared to cultivated barley. Plant biotech J. 2019 https://doi.org/ 10.1111/pbi.13210

Uncovering the dispersion history, adaptive evolution and selection of wheat in China. Plant biotech J, 2018, 16:280-291.

Introgression of powdery mildew resistance gene Pm56 on rye chromosome arm 6RS into wheat. Frontiers in plant science, 2018, 9, 1040.

Fluorescence in situ hybridization karyotyping reveals the presence of two distinct genomes in the taxon Aegilops tauschii. BMC genomics, 2018, 19(1), 3.

The abundance of homoeologue transcripts is disrupted by hybridization and is partially restored by genome doubling in synthetic hexaploid wheat. BMC genomics, 2017, 18(1), 149.

Overexpression of a NAC transcription factor delays leaf senescence and increases grain nitrogen concentration in wheat. Plant Biology, 2015, 17(4), 904-913.

Recurrent selection for wider seedling leaves increases early biomass and leaf area in wheat (Triticum aestivum L.). J Exp Bot 2014, 66(5), 1215-1226.

mRNA and small RNA transcriptomes reveal insights into dynamic homoeolog regulation of allopolyploid heterosis in nascent hexaploid wheat. Plant Cell, 2014, 26(5), 1878-1900.

Synthesizing double haploid hexaploid wheat populations based on a spontaneous alloploidization process. J Genet Genomics, 2011, 38(2), 89-94.

Comparison of homoeologous chromosome pairing between hybrids of wheat genotypes Chinese Spring ph1b and Kaixian-luohanmai with rye. Genome, 2011, 54(12), 959-964.

Production of aneuhaploid and euhaploid sporocytes by meiotic restitution in fertile hybrids between durum wheat Langdon chromosome substitution lines and Aegilops tauschii. J Genet Genomics 2008, 35(10), 617-623.

Meiotic restriction in emmer wheat is controlled by one or more nuclear genes that continue to function in derived lines. Sexual Plant Reproduction, 2007, 20(3), 159-166.
◆我的团队
刘登才教授、张连全教授、袁中伟副教授、甯顺腙副教授、黄林副教授、郝明副教授、姜博博士、范超兰博士、陈雪姣老师、陈雪老师