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個(gè)人簡(jiǎn)介

　　湖南省常寧市人，博士，副研究員。1996、1999年分別獲得湖南農(nóng)業(yè)大學(xué)學(xué)士和碩士學(xué)位，2002年獲中國(guó)科學(xué)院植物研究所理學(xué)博士學(xué)位。2003年至2005年在清華大學(xué)生物技術(shù)系從事博士后研究工作，2006-2018年在中國(guó)科學(xué)院遺傳與發(fā)育生物學(xué)研究所從事小麥分子育種科研工作，2018年12月加入中國(guó)農(nóng)業(yè)科學(xué)院蔬菜花卉研究所。

科研情況

　　主要以蘿卜、芥菜、蔥蒜類等蔬菜為材料，開(kāi)展產(chǎn)量、品質(zhì)和抗病性等性狀的鑒定與評(píng)價(jià)，發(fā)掘優(yōu)異基因資源；致力于研究品質(zhì)和抗病關(guān)鍵功能基因的作用機(jī)制，開(kāi)發(fā)有效的分子標(biāo)記，探究種質(zhì)資源的遺傳演化關(guān)系等。主持國(guó)家自然科學(xué)基金項(xiàng)目和國(guó)家科技專項(xiàng)子項(xiàng)目多個(gè)，參加多項(xiàng)973，863項(xiàng)目。在國(guó)內(nèi)外學(xué)術(shù)刊物上發(fā)表研究論文90余篇，其中SCI論文57篇，總影響因子254；發(fā)表會(huì)議文摘11篇；參編著作1部；申請(qǐng)國(guó)家發(fā)明專利18項(xiàng)，獲授權(quán)專利16項(xiàng)；參與培育農(nóng)作物新品種18個(gè)，已獲審定品種5個(gè)，獲品種權(quán)5個(gè)。培養(yǎng)和合作培養(yǎng)研究生20人，博士后1人。

主要成果

第一作者和通訊作者論文

1. Yang W#, Mirbahar AA#, Shoaib M, Lou X, Sun L, Sun J, Zhan K, Zhang A*. The carotenoid cleavage dioxygenase gene CCD7-B, at large, is associated with tillering in common wheat. Agriculture, 2022, 12(2), 306.

2. Yang W#^*, Li Y#, Sun L#, Shoaib M, Sun J, Wang D, Li X, Liu D, Zhan K, Zhang A^*. Genetic mapping of ms1s, a recessive gene for male sterility in common wheat. International Journal of Molecular Sciences, 2021, 22, 8541.

3. Hao M#, Yang W#^*, Li T, Shoaib M, Sun J, Liu D, Li X, Nie Y, Tian X, Zhang A*. Combined transcriptome and proteome analysis of anthers of AL-Type cytoplasmic male sterile line and its maintainer line reveals new insights into mechanism of male sterility in common wheat. Frontiers in Genetics, 2021, 12, 762332.

4. Hao M#, Yang W#^*,  Lu W, Sun L, Muhammad S, Sun J, Liu D, Li X, Zhang A*. Characterization of the mitochondrial genome of a wheat AL-type male sterility line and the candidate CMS gene. International Journal of Molecular Sciences, 2021, 22, 6388.

5. Shoaib M#, Yang W#^*, Shan Q, Sun L, Wang D, Sajjad M, Li X, Sun J, Liu D, Zhan K, Zhang A*. TaCKX gene family, at large, is associated with thousand-grain weight and plant height in common wheat. Theoretical and Applied Genetics, 2020, 133(11), 3151-3163.

6. Yang W, Li X*. 70 years' review and prospect of vegetable germplasm resources in China. Vegetables, 2019, 12, 1-9, in Chinese.

7. Sun L#, Yang W#^*, Li Y#, Shan Q, Ye X, Wang D, Yu K, Lu W, Xin P, Pei Z, Guo X, Liu D, Sun J, Zhan K, Chu J，Zhang A*. A wheat dominant dwarfing line with Rht12 which reduces stem cell length and affects GA synthesis, is a 5AL terminal deletion line. Plant Journal, 2019, 97, 887-900.

8. Shoaib M#, Yang W#^*, Shan Q, Sajjad M, Zhang A*. Genome wide identification and expression analysis of new cytokinin metabolic genes in bread wheat (Triticum aestivum L.). PeerJ, 2019, 7, 6300.

9. Yang W#^*, Lou X#, Li J, Pu M, Mirbahar A, Liu D, Sun J, Zhan K, He L, Zhang A*. Cloning and functional analysis of MADS-box genes, TaAG-A and TaAG-B, from a wheat K-type cytoplasmic male sterile line. Frontiers in Plant Science, 2017, 8, 1081.

10. Lou X, Li X, Li A, Pu M, Shoaib M, Liu D, Sun J, Zhang A* and Yang W^*. Molecular characterization of three GIBBERELLIN-INSENSITIVE DWARF2 homologous genes in common wheat. PLoS One, 2016, 11(6), 0157642.

11. Lou X#, Li X#, Li A, Pu M, Shoaib M, Liu D, Sun J, Zhang A* and Yang W^*. The 160 bp insertion in the promoter of Rht-B1i plays a vital role in increasing wheat height. Frontiers in Plant Science, 2016, 7, 307.

12. Yang W#, Li J#, Liu D, Sun J, He L, Zhang A*. Genome-wide analysis of the heat shock transcription factor family in Triticum urartu and Aegilops tauschii. Plant Omics, 2014, 7, 291-297.

13. Li A#, Yang W#, Lou X, Liu D, Sun J, Guo X, Wang J, Li Y, Zhan K, Ling HQ, Zhang A*. Novel natural allelic variations at the Rht-1 loci in wheat. Journal of Integrative Plant Biology, 2013, 55(11), 1026-1037.

14. Li A#, Yang W#, Li S, Liu D, Guo X, Sun J, Zhang A*. Molecular characterization of three GIBBERELLIN-INSENSITIVE DWARF1 homologous genes in hexaploid wheat. Journal of Plant Physiology, 2013, 170(4), 432-443.

15. Huang Y#, Yang W#, Pei Z, Guo X, Liu D, Sun J, Zhang A*. The genes for gibberellin biosynthesis in wheat. Functional & Integrative Genomics, 2012, 12(1), 199-206.

16. Li A#, Yang W#, Guo X, Liu D, Sun J, Zhang A*. Isolation of a gibberellin- insensitive dwarfing gene, Rht-B1e, and development of an allele-specific PCR marker. Molecular Breeding, 2012, 30, 1443-1451.

其他論文

1. Genome-wide identification of seed storage protein gene regulators in wheat through coexpression analysis. Plant Journal, 2021, 108, 1704-1720.

2. Pan-genome of Raphanus highlights genetic variation and introgression among domesticated, wild, and weedy radishes. Molecular Plant, 2021, Accepted.

3. SSR-sequencing reveals the inter- and intraspecific genetic variation and phylogenetic relationships among an extensive collection of radish (Raphanus) germplasm resources. Biology, 2021, 10(12), 1250.

4. The tolerance of an extensive collection of garlic (Allium sativum L.) germplasms to salt stress - a sustainable solution to salt stress. Applied Ecology and Environmental Research, 2021, 19(3), 2281-2303.

5. The MYB family transcription factor TuODORANT1 from Triticum urartu and the homolog TaODORANT1 from Triticum aestivum inhibit seed storage protein synthesis in wheat. Plant Biotechnology Journal, 2021, 19, 1863-1877.

6. A novel NAC family transcription factor SPR suppresses seed storage protein synthesis in wheat. Plant Biotechnology Journal, 2021, 19, 992-1007.

7. Comparative transcriptome profiling reveals that brassinosteroid- mediated lignification plays an important role in garlic adaption to salt stress. Plant Physiology and Biochemistry, 2020, 158, 34-42.

8. A novel bZIP family transcription factor from Triticum urartu and TabZIP28, its homolog from Triticum aestivum enhance starch synthesis in wheat. New Phytologist, 2020, 226(5), 1384-1398.

9. Transformation of Pinb-D1x to soft wheat produces hard wheat kernel texture. Journal of Cereal Science, 2020, 91, 102889.

10. Natural variations in the promoter of Awn Length Inhibitor 1 is associated with awn elongation and grain length in common wheat. Plant Journal, 2020, 101(5), 1075-1090.

11. Unraveling the genetic architecture of grain size in einkorn wheat through linkage and homology mapping and transcriptomic profiling. Journal of Experimental Botany, 2019, 70(18), 4671-4687.

12. Low molecular weight glutenin subunit gene composition at Glu-D3 loci of Aegilops tauschii and common wheat and a further view of wheat evolution. Theoretical and Applied Genetics, 2018 131(12), 2745-2763.

13. Mechanisms, origin and heredity of Glu-1Ay silencing in wheat evolution and domestication. Theoretical and Applied Genetics, 2018, 131, 1561-1575.

14. Diversity, distribution of Puroindoline genes and their effect on kernel hardness in a diverse panel of Chinese wheat germplasm. BMC Plant Biology, 2017, 17, 158.

15. TaFlo2-A1, an ortholog of rice Flo2, is associated with thousand grain weight in bread wheat (Triticum aestivum L.). BMC Plant Biology, 2017, 17, 164.

16. Genetic diversity, population structure and marker-trait associations for agronomic and grain traits in wild diploid wheat Triticum urartu. BMC Plant Biology, 2017, 17, 112.

17. Development of an integrated linkage map of einkorn wheat and its application for QTL mapping and genome sequence anchoring. Theoretical and Applied Genetics, 2017, 130, 53–70.

18. Characterization and genetic analysis of a novel light-dependent lesion mimic mutant, lm3, showing adult-plant resistance to powdery mildew in common wheat. PLoS ONE, 2016 11(5), e0155358.

19. Composition, variation, expression and evolution of low-molecular-weight glutenin subunit genes in Triticum urartu. BMC Plant Biology, 2015, 15, 68.

20. Genome-, transcriptome- and proteome- wide analyses of the gliadin gene families in Triticum urartu. PLoS ONE, 2015, 10, 1371.

21. Improvement on Mixograph test through water addition and parameter conversions. Journal of Integrative Agriculture, 2015, 14(9), 1715–1722.

22. Characterization of novel high-molecular-weight glutenin subunits and their coding sequences in Aegilops markgrafii. Journal of Cereal Science, 2015, 65, 9-18.

23. Molecular evidence of the haploid origin in wheat (Triticum aestivum L.) with Aegilops kotschyi cytoplasm and whole genome expression profiling after haploidization. Cereal Research Communications, 2015, 43(1), 1–11.

24. Expansin genes expressed differentially in peduncle elongation of near-isogenic wheat Rht lines. Journal of Integrative Agriculture, 2014, 13, 2091-2101.

25. Anatomical and chemical characteristics associated with lodging resistance in wheat. The Crop Journal, 2013, 1, 43-49.

26. Novel insights into the composition, variation, organization, and expression of the low-molecular-weight glutenin subunit gene family in common wheat. Journal of Experimental Botany, 2013, 64(7), 2027-2040.

27. Draft genome of the wheat A-genome progenitor Triticum urartu. Nature, 2013, 496(7443), 87-90.

28. Variability of gene expression after polyhaploidization in wheat (Triticum aestivum L.). G3-Genes Genomes Genetics, 2011, 1(1), 27-33.

29. PCR-based isolation and identification of full-length low-molecular-weight glutenin subunit genes in bread wheat (Triticum aestivum L.). Theoretical and Applied Genetics, 2011, 123(8), 1293-1305.

30. Investigation of genetic diversity and population structure of common wheat cultivars in northern China using DArT markers. BMC Genetics, 2011, 12, 42.

31. Comparative analysis of mitochondrial genomes between a wheat K-type cytoplasmic male sterility (CMS) line and its maintainer line. BMC Genomics, 2011, 12, 163.

32. Development of a new marker system for identifying the complex members of the low-molecular-weight glutenin subunit gene family in bread wheat (Triticum aestivum L.). Theoretical and Applied Genetics, 2011, 122(8), 1503-1516.

33. Ectopic expression of a grapevine transcription factor VvWRKY11 contributes to osmotic stress tolerance in Arabidopsis. Molecular Biology Reports, 2011, 38(1), 417-427.

科研項(xiàng)目(近五年)

1. 主持中國(guó)農(nóng)業(yè)科學(xué)院基本科研業(yè)務(wù)費(fèi)專項(xiàng)（IVF-BRF201901）， 20萬(wàn)元，2019.01- 2019.12。
   

2. 主持國(guó)家重點(diǎn)研發(fā)項(xiàng)目子課題（2016YFD0100804），111萬(wàn)元，2016.07-2021.06。

3. 參與中國(guó)農(nóng)業(yè)科學(xué)院平臺(tái)提質(zhì)增效專項(xiàng)（Y2020PT01），20萬(wàn)元，2020.01 -2020.12。

4. 參與中國(guó)科學(xué)院戰(zhàn)略性先導(dǎo)專項(xiàng)（XDA08010104），701萬(wàn)元，2013.08-2018.07。

5. 參與國(guó)家重點(diǎn)基礎(chǔ)研究發(fā)展計(jì)劃項(xiàng)目（2014CB138100），716萬(wàn)元，2014.01-2018.08。