name: Ming Hao |
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education: PhD |
professional title: Asistant professor |
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QQ: 715639305 |
telephone: 86-28-82650313 |
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email: haomingluo@foxmail.com |
fax: 028-82650350 |
Resume
I received my bachelor and doctor degree of agronomy from Sichuan Agricultural University in 2010 and 2015, respectively. Since 2015, I have been working in molecular genetics and cytogenetics of triticeae in Triticeae Research Institute of Sichuan Agricultural University.
Research Interests:
1. How chromosome structure changes and/or genetic factors to effect speciation, evolution and stability.
2. Combine unreduced gamete gene, ph-KL gene and chromosome elimination tecnology to develop new triticale and translocation lines.
Publications:
1. QTug.sau-3B is a major quantitative trait locus for wheat hexaploidization. G3: Genes Genomes Genetics (2014) 4(10): 1943-1953.
2. mRNA and Small RNA transcriptomes reveal insights into dynamic homoeolog regulation of allopolyploid heterosis in nascent hexaploid wheat. The Plant Cell 2014 (2014) 26(5): 1878-1900.
3. The detection of a de novo allele of the Glu-1Dx gene in wheat-rye hybrid offspring. Theoretical and Applied Genetics (2014) 127:2173-2182.
4. Distant Hybridization: A tool for interspecific manipulation of chromosomes. A. Pratap and J. Kumar (eds.), Alien Gene Transfer in Crop Plants. (2014) PP. 25-42.
5. Amphitelic orientation of centromeres at metaphase I is an important feature for univalent-dependent meiotic nonreduction. Journal of Genetics (2014) 93: 531-534.
6. Production of hexaploid triticale by a synthetic hexaploid wheat-rye hybrid method. Euphytica (2013) 193(3): 347-357.
7. In situ hybridization analysis indicates that 4AL–5AL–7BS translocation preceded subspecies differentiation of Triticum turgidum. Genome (2013) 56(5):303-305.
8. The genetic study utility of a hexaploid wheat DH population with non-recombinant A- and B-genomes. Springerplus (2013) 2: 131.
9. Identification of translocated chromosomes in Chinese endemic wheats. Journal of Triticeae Crops (2013) 33:1065-1070..
10. Genetic map of Triticum turgidum based on a hexaploid wheat population without genetic recombination for D genome. BMC Genetics(2012) 13: 69.
11. Microsatellite mutation rate during allohexaploidization of newly resynthesized wheat. International Journal of Molecular Sciences (2012) 13(10):12533-12543.
12. Synthesizing double haploid hexaploid wheat populations based on a spontaneous alloploidization process. Journal of Genetics and Genomics (2011) 38(2): 89-94.
13. Comparison of homoeologous chromosome pairing between hybrids of wheat genotypes Chinese Spring ph1b and Kaixian-luohanmai with rye. Genome (2011) 54(12):959-964.
14. Effects of hybrid backgrounds between two ph lines on homoeologous chromosome pairing. Journal of Sichuan Agricultural University (2010) 28(4): 403-406.