刘登才
作者:        审稿:戢俊臣        发布时间:2022-01-21        阅读量:

刘登才,博士,教授。1995年以来,一直围绕小麦族种质资源进行研究。近年来,聚焦远缘杂交和异源多倍化及其在小麦育种中的应用研究。渗入野生节节麦外源基因,选育出蜀麦969、蜀麦830、蜀麦580、蜀麦114、蜀麦1675等小麦新品种。主研获国家自然科学奖二等奖1项、四川省科技进步一等奖4项,曾入选中国科学院百人计划、新世纪百千万人才工程。培养作物遗传育种博士硕士生50名

Dr. Prof. Dengcai LiuHis works have been focusing on the genetics of hybridization and allopolyplodization between wheat and other species and the utilization on wheat breeding.

专著章节和综述(Book chapters and reviews

1. Chi Yen, Junliang Yang (著); Zhongwei Yuan, Shunzong Ning, Lianquan Zhang, Ming Hao, Dengcai Liu (译), 2020. Biosystematics of Triticeae, Volume I. Triticum-Aegilops complex. Springer, p1-265.

2. Dengcai Liu, Ming Hao, Aili Li, Lianquan Zhang, Youliang Zheng, Long Mao, 2016. Allopolyploidy and interspecific hybridization for wheat improvement. In: Annaliese S. Mason ed. Polyploidy and Hybridization for Crop Improvement. CRC Press, p27-52.

3. Dengcai Liu, Huaigang Zhang, Lianquan Zhang, Zhongwei Yuan, Ming Hao, Youliang Zheng, 2014. Distant Hybridization: A tool for interspecific manipulation of chromosomes. In Alien Gene Transfer in Crop Plants, Volume 1. Springer New York, p25-42.

4. 刘登才, 张连全, 郝明, 黄林, 甯顺腙, 袁中伟, 姜博, 颜泽洪, 伍碧华, 郑有良. 小麦族的基因组显性及其育种学意义. 作物学报,2020, 46:1465-1473.

5. Ming Hao, Lianquan Zhang, Shunzong Ning, Lin Huang, Zhongwei Yuan, Bihua Wu, Zehong Yan, Shoufen Dai, Bo Jiang, Youliang Zheng, Dengcai Liu. The resurgence of introgression breeding, as exemplified in wheat improvement.Frontiers in Plant Science,2020,11: 252.

6. Dengcai Liu, Lianquan Zhang, Ming Hao, Shunzong Ning, Zhongwei Yuan, Shoufen Dai, Lin Huang, Bihua Wu, Zehong Yan, Xiujin Lan, Youliang Zheng. Wheat breeding in the hometown of Chinese Spring.The Crop Journal, 2018, 6: 82-90.

7. Li A, Liu D, Yang W, Kishii M, Mao L. Synthetic hexaploid wheat: yesterday, today, and tomorrow.Engineering, 2018, 4(4): 552-558.

8. Aili Li, Shuaifeng Geng, Lianquan Zhang, Dengcai Liu, Long Mao, 2015. Making the bread: insights from newly synthesized allohexaploid Wheat.Molecular Plant, 2015, 8: 847-859.

9. Yang W, Liu D, Li J, Zhang L, Wei H, Hu X, ... & Zou Y. Synthetic hexaploid wheat and its utilization for wheat genetic improvement in China.J Genet Genomics, 2009, 36: 539-546.

Published papers

1. 李庆成, 黄磊, 李亚洲, 范超兰, 谢蝶, 赵来宾, 张舒洁, 陈雪姣, 甯顺腙, 袁中伟, 张连全, 刘登才, 郝明*, 2020. 小麦-黑麦6RS/6AL易位染色体的遗传稳定性及其在配子中的传递. 作物学报 46: 513-519.

2. 寇春兰, 赵来宾, 刘梦, 郝明, 甯顺腙, 袁中伟, 刘登才, 张连全*. 小麦未减数配子基因的连锁标记及染色体区段检测. 作物学报, 2016, 42:984-989.

3. Ming Hao#, Lianquan Zhang#, Laibin Zhao, Shoufen Dai, Aili Li, Wuyun Yang, Die Xie, Qingcheng Li, Shunzong Ning, Zehong Yan, Bihua Wu, Xiujin Lan, Zhongwei Yuan, Lin Huang, Jirui Wang, Ke Zheng, Wenshuai Chen, Ma Yu, Xuejiao Chen, Mengping Chen, Yuming Wei, Huaigang Zhang, Masahiro Kishii, Malcolm J. Hawkesford, Long Mao, Youliang Zheng, Dengcai Liu*. A breeding strategy targeting the secondary gene pool of bread wheat: introgression from a synthetic hexaploid wheat. Theoretical and Applied Genetics, 2019, 132: 2285-2294.

4. Chaolan Fan#, Jiangtao Luo#, Shujie Zhang, Meng Liu, Qingcheng Li, Yazhou Li, Lei Huang, Xuejiao Chen, Shunzong Ning, Zhongwei Yuan, Lianquan Zhang, Jirui Wang, Youliang Zheng, Dengcai Liu*, Ming Hao*. Genetic mapping of a major QTL promoting homoeologous chromosome pairing in a wheat landrace. Theoretical and Applied Genetics, 2019, 132: 2155-2166.

5. Liu, M., Zhao, Q., Qi, F., Stiller, J., Tang, S., Miao, J., ... & Manners, J. M. Sequence divergence between spelt and common wheat. Theoretical and Applied Genetics, 2018, 131(5):1125-1132.

6. Xia, T., Zhang, L., Xu, J., Wang, L., Liu, B., Hao, M., ... & Liu, D. The alternative splicing of EAM8 contributes to early flowering and short-season adaptation in a landrace barley from the Qinghai-Tibetan Plateau. Theoretical and applied genetics, 2017, 130(4):757-766.

7. Wang, Y., Xie, J., Zhang, H., Guo, B., Ning, S., Chen, Y., ... & Guo, G. Mapping stripe rust resistance gene YrZH22 in Chinese wheat cultivar Zhoumai 22 by bulked segregant RNA-Seq (BSR-Seq) and comparative genomics analyses. Theoretical and Applied Genetics, 2017, 130(10):2191-2201.

8. Yuan, Z., Liu, M., Ouyang, Y., Zeng, X., Hao, M., Zhang, L., ... & Liu, D. The detection of a de novo allele of the Glu-1Dx gene in wheat–rye hybrid offspring. Theoretical and applied genetics, 2014, 127(10):2173-2182.

9. Wang, L., Xu, J., Xia, T., Zhang, H., Liu, D., & Shen, Y. Population structure and linkage disequilibrium in six-rowed barley landraces from the Qinghai-Tibetan plateau. Crop Science, 2014, 54(5):2011-2022.

10. Liu, M., Zhang, C., Yuan, C., Zhang, L., Huang, L., Wu, J., ... & Fu, D. Stripe rust resistance in Aegilops tauschii germplasm. Crop Science, 2013, 53(5):2014-2020.

11. Zhang Shujie et al., KASP markers to detect sub-chromosomal arm translocations between 6VS of Haynaldia villosa and 6AS of wheat. Euphytica, 2021, 217:10

12. Hao, M., Luo, J., Zhang, L., Yuan, Z., Yang, Y., Wu, M., ... & Liu, D. Production of hexaploid triticale by a synthetic hexaploid wheat-rye hybrid method. Euphytica, 2013, 193(3):347-357.

13. Zhang, L. Q., Liu, D. C., Zheng, Y. L., Yan, Z. H., Dai, S. F., Li, Y. F., ... & Yen, Y. Frequent occurrence of unreduced gametes in Triticum turgidumAegilops tauschii hybrids. Euphytica, 2010, 172(2):285-294.

14. Yang, J., Tan, C., Lang, J., Tang, H., Hao, M., Tan, Z., ... & Zhou, Y. Identification of qPHS.sicau-1B and qPHS.sicau-3D from synthetic wheat for pre-harvest sprouting resistance wheat improvement. Molecular Breeding, 2019, 39(9):132.

15. Yu, M., Chen, G. Y., Pu, Z. E., Zhang, L. Q., Liu, D. C., Lan, X. J., ... & Zheng, Y. L. Quantitative trait locus mapping for growth duration and its timing components in wheat. Molecular breeding, 2015, 35(1):44.

16. Chaozhong Zhang#, Lin Huang#, Huifei Zhang, Qunqun Hao, Bo Lyu, Meinan Wang, Lynn Epstein, Miao Liu, Chunlan Kou, Juan Qi, Fengjuan Chen, Mengkai Li, Ge Gao, Fei Ni, Lianquan Zhang, Ming Hao, Jirui Wang, Xianming Chen, MingCheng Luo, Youliang Zheng, Jiajie Wu*, Dengcai Liu*, Daolin Fu*. An ancestral NB-LRR with duplicated 3’UTRs confers stripe rust resistance in wheat and barley. Nature Communications, 2019, 10: 4023.

17. Li, A., Liu, D., Wu, J., Zhao, X., Hao, M., Geng, S., ... & Yin, L. mRNA and small RNA transcriptomes reveal insights into dynamic homoeolog regulation of allopolyploid heterosis in nascent hexaploid wheat. The Plant Cell, 2014, 26(5):1878-1900.

18. Chaolan Fan, Ming Hao, Zhenyu Jia, Christian Neri, Cue Chen, Wenshuai Chen, Dengcai Liu, Adam J. Lukaszewski. Some characteristics of crossing over in induced recombination between chromosomes of wheat and rye. The Plant Journal, 2021,105(6): 1665-1676.

19. Liu, M., Li, Y., Ma, Y., Zhao, Q., Stiller, J., Feng, Q., ... & Liu, C. The draft genome of a wild barley genotype reveals its enrichment in genes related to biotic and abiotic stresses compared to cultivated barley. Plant biotechnology journal. 2020, 18(2): 443-456.

20. Zhou, Y., Chen, Z., Cheng, M., Chen, J., Zhu, T., Wang, R., ... & Wei, Y. Uncovering the dispersion history, adaptive evolution and selection of wheat in China. Plant biotechnology journal, 2018, 16(1):280-291.

21. Zhang, L., Richards, R. A., Condon, A. G., Liu, D. C., & Rebetzke, G. J. Recurrent selection for wider seedling leaves increases early biomass and leaf area in wheat (Triticum aestivum L.). Journal of Experimental Botany, 2014, 66(5): 1215-1226.

22. Zhao, D., Derkx, A. P., Liu, D. C., Buchner, P., & Hawkesford, M. J. Overexpression of a NAC transcription factor delays leaf senescence and increases grain nitrogen concentration in wheat. Plant Biology, 2015, 17(4):904-913.

23. Zhang, L., Zhang, L., Luo, J., Chen, W., Hao, M., Liu, B., ... & Liu, D. Synthesizing double haploid hexaploid wheat populations based on a spontaneous alloploidization process. Journal of genetics and genomics, 2011, 38(2):89-94.

24. Zhang, L., Chen, Q., Yuan, Z., Xiang, Z., Zheng, Y., & Liu, D. Production of aneuhaploid and euhaploid sporocytes by meiotic restitution in fertile hybrids between durum wheat Langdon chromosome substitution lines and Aegilops tauschii. Journal of Genetics and Genomics, 2008, 35(10):617-623.

25. Zhao, L., Ning, S., Yi, Y., Zhang, L., Yuan, Z., Wang, J., ... & Liu, D. Fluorescence in situ hybridization karyotyping reveals the presence of two distinct genomes in the taxon Aegilops tauschii. BMC genomics, 2018, 19(1):3.

26. Hao, M., Li, A., Shi, T., Luo, J., Zhang, L., Zhang, X., ... & Li, X. 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.

27. Deying Zeng, Jiantao Guan, Jiangtao Luo, Laibin Zhao, Yazhou Li, Wenshuai Chen, Lianquan Zhang, Shunzong Ning, Zhongwei Yuan, Aili Li, Youliang Zheng, Long Mao, Dengcai Liu, Ming Hao*. A transcriptomic view of the ability of nascent hexaploid wheat to tolerate aneuploidy. BMC Plant Biology, 2020, 20:97.

28. Hao, M., Liu, M., Luo, J., Fan, C., Yi, Y., Zhang, L., ... & Liu, D. Introgression of powdery mildew resistance gene Pm56 on rye chromosome arm 6RS into wheat. Frontiers in plant science, 2018, 9:1040.

29. Cao, D., Chen, W., Wang, H., Liu, D., Zhang, B., Liu, B., & Zhang, H. The transfer to and functional annotation of alien alleles in advanced wheat lines derived from synthetic hexaploid wheat. Plant Physiology and Biochemistry, 2018, 130:89-93.

30. Hao, M., Luo, J., Yang, M., Zhang, L., Yan, Z., Yuan, Z., ... & Liu, D. Comparison of homoeologous chromosome pairing between hybrids of wheat genotypes Chinese Spring ph1b and Kaixian-luohanmai with rye. Genome, 2011, 54(12): 959-964.

31. Zhang, L. Q., Yen, Y., Zheng, Y. L., & Liu, D. C. 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.

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