郝明

时间: 2015-07-17 点击次数:


郝明,博士,副教授。20157月加入四川农业大学小麦研究所工作。从2010年开始,一直聚焦小麦染色体工程技术创新和远缘杂交染色体行为机制解析,主要围绕远缘杂交过程中的两类关键基因:Ph基因(Pairing homoeologous)和UG基因(Unreduced gametes)开展相关研究。发表相关论文40余篇,主持主研相关科研项目6项。  

Publons主页:https://publons.com/researcher/1652981/ming-hao/

联系方式:

haomingluo@foxmail.com    13981719254(微信同号)QQ: 715639305 

 

招生专业:

作物遗传育种(科学学位硕士研究生);作物(专业学位硕士研究生) 

相关研究结果报道:

Ø 部分同源染色体配对新基因定位https://mp.weixin.qq.com/s/CNMdJa2pQfQqQcWRU0HzeA

Ø Ph1基因诱导染色体重组规律https://mp.weixin.qq.com/s/mZJEfg1p__NpQxz3oXtl3g

Ø 小麦外源基因渗入育种综述https://mp.weixin.qq.com/s/rZgg6RzXpqW_GwWJYtzmRQ

Ø 人工合成小麦育种利用方法https://mp.weixin.qq.com/s/OYWa0fFzkkzKJlC-cbWa-Q

主持和主研项目:

v 节节麦天然分布区东部边缘(中国黄河流域)居群的遗传变异与进化研究,国家自然科学基金与俄罗斯基础研究基因合作交流项目,2021-2022,在研,主持

v 部分同源染色体配对促进位点QPh.sicau-3A的精细定位和候选基因分析,国家自然科学基金面上项目,2020-2023,在研,主持

v 部分同源染色体配对促进基因ph-KL的分子标记与验证,国家自然基金青年基金,2017-2019,结题,主持

v 新型Ph基因定向诱导染色体易位的应用潜力研究,科技厅面上项目,2019-2021,结题,主持

v 新型Ph基因诱导染色体配对的遗传规律及在诱导6A/6R抗白粉病易位系中的应用,教育厅重点项目,2016-2018,结题,主持

v 主要农作物近缘属种染色体片段渗入系创制与新基因发掘,国家重点研发计划,2016-2020,在研,主研(课题秘书)

发表论文:

Zhao L, Xie D, Fan C, Zhang S, Huang L, Ning S, Jiang B, Zhang L, Yuan Z, Liu D and Hao M (2021) Chromosome Stability of Synthetic-Natural Wheat Hybrids. Front. Plant Sci.12:654382.

*罗江陶, 郑建敏, 蒲宗君, 范超兰, 刘登才, 郝明. 四倍体小麦与六倍体小麦杂种的染色体遗传特性. 作物学报: 1-14 [2021-03-07]. http://kns.cnki.net/kcms/detail/11.1809.S.20210219.1343.002.html.

* Fan C, Hao M, Jia Z, Neri C, Chen X, Chen W, Liu D, Lukaszewski AJ. Some characteristics of crossing over in induced recombination between chromosomes of wheat and rye. The Plant Journal 2021 https://doi.org/ 10.1111/tpj.15140

* Zhang S, Fan C, Luo J, Huang L, Xie D, Li Y, Chen Z, Jiang B, Ning S, Yuan Z, Huang L, Zhang L, Liu D, Hao M. KASP markers to detect sub-chromosomal arm translocations between 6VS of Haynaldia villosa and 6AS of wheat. Euphytica 2021 217: 10

* 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.

* 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 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 2020 46: 513-519.

* Zhao LB, Xie D, Huang L, Zhang S, Luo J, Jiang B, Ning SZ, Zhang LQ, Yuan ZW, Wang JR, Zheng YL, Liu DC, Hao M. Integrating the physical and genetic map of bread wheat facilitates the detection of chromosomal rearrangements. Journal of Integrative Agriculture 2020 19(0): 2–11

* Luo J, Zhao L, Zheng J, Li Y, Zhang L, Liu D, Pu Z, Hao M. Karyotype mosaicism in early generation synthetic hexaploid wheats. Genome. 2020 Jul; 63(7): 329-336.

* Zeng D, Guan J, Luo J, Zhao L, Li Y, Chen W, Zhang L, Ning S, Yuan Z, Li A, Zheng Y, Mao L, Liu D, Hao M. A transcriptomic view of the ability of nascent hexaploid wheat to tolerate aneuploidy. BMC Plant Biology 2020 20: 97.

* Hao M, Zhang L, Ning S, Huang L, Yuan Z, Wu B, Yan Z, Dai S, Jiang B, Zheng Y, Liu D. The resurgence of introgression breeding, as exemplified in wheat improvement. Frontiers in Plant Science 2020 11: 252.

* Yang J, Tan C, Lang J, Tang H, Hao M, Tan Z, Yu H, Zhou Y, Liu Z, Li M, Zhou Y, Cheng M, Zhang L, Liu D, Wang J. Identification of qPHS.sicau-1B and qPHS.sicau-3D from synthetic wheat for pre-harvest sprouting resistance wheat improvement. Molecular Breeding 2019 39: 132.

* Hao M, Zhang L, Zhao L, Dai S, Li A, Yang W, Xie D, Li Q, Ning S, Yan Z, Wu B, Lan X, Yuan Z, Huang L, Wang J, Zheng K, Chen W, Yu M, Chen X, Chen M, Wei Y, Zhang H, Kishii M, Hawkesford MJ, Mao L, Zheng Y, Liu D. A breeding strategy targeting the secondary gene pool of bread wheat: introgression from a synthetic hexaploid wheat. Theor Appl Genet. 2019 Aug;132(8):2285-2294.

* Fan C, Luo J, Zhang S, Liu M, Li Q, Li Y, Huang L, Chen X, Ning S, Yuan Z, Zhang L, Wang J, Zheng Y, Liu D, Hao M. Genetic mapping of a major QTL promoting homoeologous chromosome pairing in a wheat landrace. Theor Appl Genet. 2019 Jul;132(7):2155-2166.

* Yi Y, Zheng K, Ning S, Zhao L, Xu K, Hao M, Zhang L, Yuan Z, Liu D. The karyotype of Aegilops geniculata and its use to identify both addition and substitution lines of wheat. Mol Cytogenet. 2019 Apr 2;12:15.

* Zhang C, Huang L, Zhang H, Hao Q, Lyu B, Wang M, Epstein L, Liu M, Kou C, Qi J, Chen F, Li M, Gao G, Ni F, Zhang L, Hao M, Wang J, Chen X, Luo MC, Zheng Y, Wu J, Liu D, Fu D. An ancestral NB-LRR with duplicated 3'UTRs confers stripe rust resistance in wheat and barley. Nat Commun. 2019 Sep 6;10(1):4023.

* Hao M, Liu M, Luo J, Fan C, Yi Y, Zhang L, Yuan Z, Ning S, Zheng Y, Liu D. Introgression of powdery mildew resistance gene Pm56 on rye chromosome arm 6RS into wheat. Front Plant Sci. 2018 Jul 17;9:1040.

* Zhao L, Ning S, Yi Y, Zhang L, Yuan Z, Wang J, Zheng Y, Hao M, Liu D. Fluorescence in situ hybridization karyotyping reveals the presence of two distinct genomes in the taxon Aegilops tauschii. BMC Genomics. 2018 Jan 2;19(1):3.

* Liu X, Zhang M, Liu X, Li H, Hao M, Ning S, Yuan Z, Liu D, Wu B, Chen X, Chen W, Zhang L. Molecular cytogenetic identification of newly synthetic Triticum kiharae with high resistance to stripe rust. Genet Resour Crop Evol. 2018 65: 1725.

* Chen G, Zhang MH, Liu XJ, Fu JY, Li HY, Hao M, Ning SZ, Yuan ZW, Yan ZH, Wu BH, Liu DC, Zhang LQ. Characterization of an expressed Triticum monococcum Glu-A1y gene containing a premature termination codon in its C-terminal coding region; Cereal Research Communications; 2018, 46: 201-210.

* Li H, Liu X, Zhang M, Feng Z, Liu D, Ayliffe M, Hao M, Ning S, Yuan Z, Yan Z, Chen X, Zhang L. Development and identification of new synthetic T. turgidumT. monococcum amphiploids. Plant Genetic Resources 2018 16: 555-563.

* Liu D, Zhang L, Hao M, Ning S, Yuan Z, Dai S, Huang L, Wu B, Yan Z, Lan X, Zheng Y. Wheat breeding in the hometown of Chinese Spring. The Crop Journal 2018 6: 82-90.

* Yang S, Zhu H, Yu J, Zhong Y, Zhao L, Jiang Y, Hao M, Zhang L, Ning S, Chen X, Liu D, Yuan Z. Using a wheat-rye amphihaploid population to map a rye gene responsible for dwarfness. Euphytica 2018 214: 166.

* Li ZL, Li HY, Chen G,Liu XJ, Kou CL, Ning SZ, Yuan ZW, Hao M, Liu DC, Zhang LQ. Molecular characterization of seven novel Glu-A1mx alleles from Triticum monococcum ssp. monococcum. Cereal Research Communications 2017 45: 647-654.

* Hao M, Li A, Shi T, Luo J, Zhang L, Zhang X, Ning S, Yuan Z, Zeng D, Kong X, Li X, Zheng H, Lan X, Zhang H, Zheng Y, Mao L, Liu D. The abundance of homoeologue transcripts is disrupted by hybridization and is partially restored by genome doubling in synthetic hexaploid wheat. BMC Genomics. 2017 Feb 10;18(1):149.

* Xia T, Zhang L, Xu J, Wang L, Liu B, Hao M, Chang X, Zhang T, Li S, Zhang H, Liu D, Shen Y. The alternative splicing of EAM8 contributes to early flowering and short-season adaptation in a landrace barley from the Qinghai-Tibetan Plateau. Theor Appl Genet. 2017 Apr;130(4):757-766.

* Liu D, Hao M, Li A, Zhang L, Zheng Y, Mao L. Allopolyploidy and interspecific hybridization for wheat improvement. In: Annaliese S. Mason ed. Polyploidy and Hybridization for Crop Improvement. CRC Press, 2016 p27-52.

* Zeng D, Luo J, Li Z, Chen G, Zhang L, Ning S, Yuan Z, Zheng Y, Hao M, Liu D. High transferability of homoeolog-specific markers between bread wheat and newly synthesized hexaploid wheat lines. PLoS One. 2016 Sep 9;11(9):e0162847.

* Zhao L, Ning S, Yu J, Hao M, Zhang L, Yuan Z, Zheng Y, Liu D. Cytological identification of an Aegilops variabilis chromosome carrying stripe rust resistance in wheat. Breed Sci. 2016 Sep;66(4):522-529.

* 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(7): 984-989.

* Liu D, Zhang H, Zhang L, Yuan Z, Hao M, Zheng Y. Distant Hybridization: A tool for interspecific manipulation of chromosomes. In Alien Gene Transfer in Crop Plants, Volume 1. Springer New York, 2014 p25-42.

* Zeng DY, Hao M, Luo JT, Zhang LQ, Yuan ZW, Ning SZ, Zheng YL, Liu DC. Amphitelic orientation of centromeres at metaphase I is an important feature for univalent-dependent meiotic nonreduction. J Genet. 2014 Aug;93(2):531-4.

* Li A, Liu D, Wu J, Zhao X, Hao M, Geng S, Yan J, Jiang X, Zhang L, Wu J, Yin L, Zhang R, Wu L, Zheng Y, Mao L. mRNA and Small RNA Transcriptomes Reveal Insights into Dynamic Homoeolog Regulation of Allopolyploid Heterosis in Nascent Hexaploid Wheat. Plant Cell. 2014 May;26(5):1878-1900.

* Hao M, Luo J, Zeng D, Zhang L, Ning S, Yuan Z, Yan Z, Zhang H, Zheng Y, Feuillet C, Choulet F, Yen Y, Zhang L, Liu D. QTug.sau-3B is a major quantitative trait locus for wheat hexaploidization. G3 (Bethesda). 2014 Aug 15;4(10):1943-53.

* Yuan Z, Liu M, Ouyang Y, Zeng X, Hao M, Zhang L, Ning S, Yan Z, Liu D. The detection of a de novo allele of the Glu-1Dx gene in wheat-rye hybrid offspring. Theor Appl Genet. 2014 Oct;127(10):2173-82.

* Hao M, Luo J, Zhang L, Yuan Z, Zheng Y, Zhang H, Liu D. In situ hybridization analysis indicates that 4AL-5AL-7BS translocation preceded subspecies differentiation of Triticum turgidum. Genome. 2013 May;56(5):303-5.

* Hao M, Luo J, Zhang L, Yuan Z, Yang Y, Wu M, Chen W, Zheng Y, Zhang H, Liu D. Production of hexaploid triticale by a synthetic hexaploid wheat-rye hybrid method; Euphytica; 2013, 193(3):347-357. (IF=1.692)

* Hao M, Chen J, Zhang L, Luo J, Yuan Z, Yan Z, Zhang B, Chen W, Wei Y, Zhang H, Zheng Y, Liu D. The genetic study utility of a hexaploid wheat DH population with non-recombinant A- and B-genomes. Springerplus. 2013 Dec;2(1):131.

* 邹晓欢, 郝明, 罗江陶, 张连全, 袁中伟, 刘登才. 中国特有小麦的易位染色体鉴定. 麦类作物学报 2013 33:1065-1070

* Luo J, Hao M, Zhang L, Chen J, Zhang L, Yuan Z, Yan Z, Zheng Y, Zhang H, Yen Y, Liu D. Microsatellite mutation rate during allohexaploidization of newly resynthesized wheat. Int J Mol Sci. 2012 Oct 1;13(10):12533-43.

* Zhang L, Luo JT, Hao M, Zhang LQ, Yuan ZW, Yan ZH, Liu YX, Zhang B, Liu BL, Liu CJ, Zhang HG, Zheng YL, Liu DC. Genetic map of Triticum turgidum based on a hexaploid wheat population without genetic recombination for D genome. BMC Genet. 2012 Aug 13;13:69.

* Hao M, Luo J, Yang M, Zhang L, Yan Z, Yuan Z, Zheng Y, Zhang H, Liu D. Comparison of homoeologous chromosome pairing between hybrids of wheat genotypes Chinese Spring ph1b and Kaixian-luohanmai with rye. Genome. 2011 Dec;54(12):959-64.

* Zhang L, Zhang L, Luo J, Chen W, Hao M, Liu B, Yan Z, Zhang B, Zhang H, Zheng Y, Liu D, Yen Y. Synthesizing double haploid hexaploid wheat populations based on a spontaneous alloploidization process. J Genet Genomics. 2011 Feb;38(2):89-94.

* 郝明, 罗江陶, 杨敏, 张连全, 刘登才. 普通小麦中两个ph系杂种对部分同源染色体配对的影响. 四川农业大学学报 2010 28(4): 403-406.

 

 

 

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