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姓  名: 韩月彭
职  称: 研究员
职 务: 资源植物研究中心主任,博士生导师,PI
电 话/传 真: 027-87700840/027-87700877
电子邮件: yphan@wbgcas.cn
所属课题组:  果树分子育种学科组

简要履历:

2008年11-至今 中国科学院武汉植物园 研究员,从事果树遗传与改良研究;
2016年10-12月 新西兰植物食品研究院合作研究 新西兰Li Lairong奖学金资助;
2004年8月-2009年2月 美国伊利诺伊大学厄巴纳-香槟分校 博士后,从事苹果基因组学研究;
1998年9月-2004年6月 扬州大学 硕士、博士研究生,作物学专业;
1993年7月-2008年10月 江苏省扬州市农科院 研究助理,从事作物遗传与改良研究;
1989年9月-1993年6月 江苏农学院 农业教育与推广,本科;

研究领域:

主要从事桃等果树果实品质遗传机制研究,并致力于桃的分子改良,创制优异新材料。

社会任职:

2021-至今,Frontiers in Plant Science副主编
2019-至今,国际蔷薇科作物育种协会执行委员(亚洲唯一代表,RosEXEC Membership 2019)
2019年-至今,湖北省遗传学会常务理事、副秘书长
2018年-至今,湖北省园艺学会第十二届理事会副理事长
2017年-至今,Horticulture Research副主编
2017-至今,中国科学院植物种植创新与特色农业重点实验室主任
2021年-至今,武汉市植物学会理事长
2008年-至今,Plant Molecular Biology Reporter 副主编

获奖及荣誉:

2020年,中国科学院优秀共产党员
2019年,入选中国科学院核心植物园资源植物学首席科学家
2018年,享受国务院特殊津贴专家
2017年,入选国家桃产业技术体系岗位科学家
2016年,新西兰Li Lairong奖学金
2016年,湖北省有突出贡献的中青年专家;湖北省科协“科技创新源泉工程”创新创业人才
 

代表论著:

  1. Zhao L, Sun J, Cai Y, Yang Q, Zhang Y, Ogutu CO, Liu J, Zhao Y, Wang F, He H, Zheng B*, Han YP* .2022. PpHYH is responsible for light-induced anthocyanin accumulation in fruit peel of Prunuspersica. Tree Physiology , https://doi.org/10.1093/treephys/tpac025
  2. Yang Q, Yang X, Wang L, Zheng B, Cai Y, Ogutu CO, Zhao L, Peng Q, Liao L, Zhao Y, Zhou H*, Han YP* .2022. Two R2R3-MYB genes cooperatively control trichome development and cuticular wax biosynthesis in Prunuspersica.New Phytologistdoi , 10.1111/nph.17965
  3. Liao L#, Zhang W#, Zhang B#, Fang T#, Wang XF, Cai Y, Ogutu C, Gao L, Chen G, Nie X, Xu J, Zhang Q, Ren Y, Yu J, Wang C, Deng CH, Ma B, Zheng B, You CX, Hu DG, Espley R, Lin-Wang K, Yao JL, Allan AC, Khan A, Korban SS, Fei Z, Ming R, Hao YJ*, Li L*, Han YP*.2021. Unraveling a Genetic Roadmap for Improved Taste in the Domesticated Apple. Molecular Plant ,9:1454-1471
  4. Wang L, Jiang X, Zhao L, Wang F, Liu Y, Zhou H, He H, Han YP* .2021. A candidate PpRPH gene of the D locus controlling fruit acidity in peach. Plant Molecular Biology ,105: 321-332
  5. Zhou H,Gao L, Ma R, Zhang A, Zhang J, Zhang X, Zhang W,Ren F, Liao L, Yang Q,Xu S,Ogutu C, Yu M, Zhao J, Jiang Q,Korban SS,Han YP* (2021) A 1.7-Mb chromosomal inversion downstream of a PpOFP1 gene is responsible for flat fruit shape in peach. Plant Biotechnology Journal ,19:192-205
  6. Zheng B, Zhao L, Jiang X, Cherono S, Liu J, Ogutu C, Ntini C, Zhang X, Han YP* .2021. Assessment of organic acid accumulation and its related genes in peach. Food Chemistry ,334: 127567
  7. Peng Q,Cai Y, Lai E, Nakamura M, Liao L,Zheng B,Ogutu C,Cherono S,Han YP* .2020. The sucrose transporter MdSUT4.1 participates in the regulation of fruit sugar accumulation in apple. BMC Plant Biology ,20:191
  8. Peng Q, Wang L, Ogutu C, Liu J, Liu L, Mollah MDA, Han YP* .2020. Functional analysis reveals the regulatory role of PpTST1 encoding tonoplast sugar transporter in sugar accumulation of peach fruit. International Journal of Molecular Sciences , 21: 1112
  9. Zhou H, Lin-Wang K, Wang F,Espley R,Ren F, Zhao J,Ogutu C, He H, Jiang Q, Allan A,Han YP* .2019. Activator-type R2R3-MYB genes induce a repressor-type R2R3-MYB gene to balance anthocyanin and proanthocyanidin accumulation. New Phytologist ,221:1919-1934
  10. Ma B, Liao L, Fang T, Peng Q, Ogutu C, Zhou H, Ma F, Han YP* .2019. A Ma10 gene encoding P-type ATPase is involved in fruit organic acid accumulation in apple. Plant Biotechnology Journal ,17: 674-686
  11. Zhou H, Liao L, Xu S, Ren F, Zhao J, Ogutu C, Wang L, Jiang Q, Han YP* .2018. Two amino acid changes in the R3 repeat cause functional divergence of two clustered MYB10 genes in peach. Plant Molecular Biology ,98: 169–183
  12. Deng X, Zhao L, Fang T, Xiong Y, Ogutu C, Yang D, Vimolmangkang S, Liu Y, Han YP*.2018.Investigation of benzylisoquinoline alkaloidbiosynthetic pathway and itstranscriptional regulation in lotus. Horticulture Research ,5:29
  13. Zhen Q, Fang T, Peng Q, Liao L, Zhao L, Owiti A, Han YP* .2018. Developing gene-tagged molecular markers for evaluation of genetic association of apple SWEET genes with fruit sugar accumulation. Horticulture Research ,5:14
  14. Ma B, Liao L, Peng Q, Fang T,Zhou H, Korban SS, Han YP* .2017. Reduced representation genome sequencing reveals patterns of genetic diversity and selection in apple. Journal of Integrative Plant Biology ,59: 190-204
  15. Fang T, Zhen Q, Liao L, Owiti A, Zhao L, Korban SS, Han YP* .2017. Variation of ascorbic acid concentration in fruits of cultivated and wild apples. Food Chemistry ,225: 132-137
  16. Vimolmangkang S, Zheng H, Peng Q, Jiang Q, Wang H, Fang T, LiaoL, Wang L, He H, Han YP* (2016) Assessment of sugar components and genes involved in the regulation of sucroseaccumulation in peach fruit. Journal of Agricultural and Food Chemistry ,64: 6723-6729
  17. Wang L, Peng Q, Zhao J, Ren F, Zhou H, Wang W, Liao L, Owiti A, Jiang Q, Han YP* .2016. Evolutionary origin of Rosaceae-specific active non-autonomous hAT elements and their contribution to gene regulation and genomic structural variation. Plant Molecular Biology ,91: 179-191
  18. Gu C, Wang L, Wang W, Zhou H, Ma B, Zheng H, Fang T, Ogutu C, Vimolmangkang S, Han YP* .2016. Copy number variation of a gene cluster encoding endopolygalacturonase mediates flesh texture and stone adhesion in peach. Journal of Experimental Botany ,67:1993-2005
  19. Deng X, Zhu L, Fang T, Vimolmangkang S, Yang D, Ogutu C, Liu Y, Han YP* .2016. Analysis of isoquinoline alkaloid composition and wound-induced variation in Nelumbo using HPLC-MS/MS.Journal of Agricultural and Food Chemistry ,64: 1130–1136
  20. Cheng J, Liao L, Zhou H, Gu C, Wang L, Han YP* .2015. A small indel mutation in an anthocyanin transporter causesvariegated colouration of peach flowers. Journal of Experimental Botany ,66: 7227-7239
  21. MaB, Liao L, Zheng H, Chen J, Wu B,Ogutu C, Li S, Korban SS, Han YP* .2015. Genes encoding aluminum-activated malate transporter II and their association with fruit acidity in apple. Plant Genome, 8: 1-14
  22. Zhou H, Lin-Wang K, Wang H, Gu C, Dare AP, Espley RV, He H, Allan AC, Han YP* .2015. Molecular genetics of blood-fleshed peach reveals activation of anthocyanin biosynthesis by NAC transcription factors. Plant Journal,82: 105–121
  23. Ma B, Chen J,Zheng H, Fang T, Ogutu C, Li S, Han YP*,WuB .2015. Comparative assessment of sugar and malic acid composition incultivated and wild apples. Food Chemistry, 172: 86-91
  24. Zhou Y, Zhou H, Lin-Wang K, Vimolmangkang S, Espley RV, Wang L, Allan AC, Han YP* .2014. Transcriptome analysis and transient transformation suggest an ancient duplicated MYB transcription factor as a candidate gene for leaf red coloration in peach.BMC Plant Biology,14:388
  25. Cheng J, Wei G, Zhou H, Gu C, Vimolmangkang S, Liao L, Han YP* .2014. Unraveling the mechanism underlying the glycosylation and methylation of anthocyanins in peach.Plant Physiology, 166:1044-1058
  26. Wang L, Zhao S, Gu C, Zhou Y, Zhou H, Ma J, Cheng J, Han YP* .2013. Deep RNA-Seq uncovers the peach transcriptome landscape. Plant Molecular Biology, 83: 365-377
  27. Zhang Q, Ma B, Li H, Chang Y, Han Y, Li J, Wei G, Zhao S, Khan MA, Zhou Y, Gu C, Zhang X, Han Z, Korban SS, Li S, Han YP* .2012. Identification, characterization, and utilization of genome-wide simple sequence repeats to identify a QTL for acidity in apple.BMC Genomics, 13: 537
  28. Han YP*, Vimolmangkang S, Soria-Guerra RE, Korban SS .2012. Introduction of apple ANR genes into tobacco inhibits expression of both CHI and DFR genes in flowers, leading to loss of anthocyanin. Journal Experimental Botany, 63: 2437-2447
  29. Han YP, Zheng D, Vimolmangkang S, Khan MA, Beever JE, Korban SS .2011. Integration of physical and genetic maps in apple confirms whole-genome and segmental duplications in the apple genome. Journal Experimental Botany 62: 5117-5130
  30. Han YP, Korban SS .2010. Strategies for Map-Based Cloning in Apple. Critical Reviews in Plant Sciences, 29: 265-284
  31. Han YP, Vimolmangkang S, Soria-Guerra RE, Rosales-Mendoza S, Zheng D, Lygin AV and Korban SS .2010. Ectopic expression of apple F3'H genes contributes to anthocyanin accumulation in the Arabidopsis tt7 mutant grown under nitrogen stress. Plant Physiology, 153: 806-820
  32. Han YP, Chagné D, Gasic K, Rikkerink EHA, Beever JE, Gardiner SE, Korban SS .2009. BAC-end sequence-based SNPs and Bin mapping for rapid integration of physical and genetic maps in apple. Genomics, 93: 282-288
  33. Han YP, Korban SS .2008. An overview of the apple genome through BAC end sequence analysis. Plant Molecular Biology, 67:581-588
  34. Han YP, Gasic K, Korban SS .2007. Multiple-copy cluster-type organization and evolution of genes encoding O-methyltransferases in apple. Genetics, 176:2625-2635

承担科研项目情况:

1)国家重点研发计划课题,果实色泽品质形成与调控(2018YFD1000203),2018.07-2022.12;
2)国家桃产业技术体系,桃育种技术与方法(CARS‐30),2017-2025;
3)国家自然科学家基金面上项目(31872087),桃PpTST1基因可变剪接参与果实糖分积累的调控及机理解析,2019-2022;
4)国家自然科学家基金面上项目(31672134),桃PpOA3基因参与果实酸度调控的功能及机理解析,2017-2020;
5)国家自然科学基金国际合作重点(31420103914),苹果果实糖酸性状的全基因组关联分析及其遗传调控网络研究,2015-2019;
6)科技部“973”项目子课题(2011CB100600),苹果果实品质性状的遗传机制,2011-2015;
7)农业部948项目(2011-GXX),重要果树基因资源发掘与创新的关键技术合作研发,2011-2015;
8)国家自然科学基金(31372048),苹果果实酸度QTLs区域液泡膜H+-ATPase及相关调节基因的关联分析和功能研究,2014-2017;
9)国家自然科学基金(30971987),基于SSR遗传图谱的苹果糖酸品质性状的基因定位,2010-2012;
10)中国科学院战略性先导科技专项(XDA24030404-4),高营养果树增值品种的精准设计,2019.11-2023.12。