王希胤
一、个人简介
王希胤,博士、天下足球网、博士生导师;2005年毕业于北京大学获生物信息学博士学位;原美国乔治亚大学研究员、遗传学博导、华北理工大学公共卫生学博导;国家重点专项委员会评委员、国际棉花基因组专委会委员、国际计算生物学学会会员、国际分子进化学会会员、美国遗传学会会员、中国生物工程学会生物信息专委会委员;河北省“三三三人才工程”学者、省百人学者、省杰青、教育厅新世纪人才。
主要从事生物信息学和基因组学的研究,在多个植物基因组测序的国际合作项目中任生物信息学/比较基因组学分析的首席科学家或研究组组长;作为国际植物基因组信息学领域著名专家之一,取得了多项突出的独创性成果:生物信息学软件和数据库开发,染色体进化理论创新,基因组多倍化与稳定性研究,重要经济作物全基因组比对算法和应用研究,基因家族和调控网络研究。
在染色体数减少理论、B染色体起源的分子机制、植物基因组学等方面取得多项原创性成果,提出复杂基因结构分析金标准;开发软件植物基因组分析软件ColinearScan、MCScan,开发植物基因组加倍数据库PGDD,年访问量达千万次。主持国家自然基金6项、联合基金1个、重点项目子课题1个;学术论文80余篇,一作18篇,通讯作者32篇,作为首席科学家之一发表的论文6篇,他引15000次以上,两篇进入ESI高被引千分之一,9篇进入1%。H-index 41。
主持国际动植物基因组大会“基因组特征与染色体功能”会场、主持第17届国际植物学大会“植物基因组多倍化”会场;经常在国内外会议和知名大学报告研究成果。
二、代表性成果
1. Weijian Zhuang*, Xiyin Wang*, Rajeev K. Varshney, Hua Chen, Meng Yang, Chong Zhang, Pengchuan Sun, Andrew H. Paterson. Reply: two different models of peanut origination. Nature Genetics. 2020 May 11. (共同第一且共同通讯)
2. Yang Y, Sun P, Lv L, Wang D, Ru D, Li Y, Ma T, Zhang L, Shen X, Meng F, JiaoB, Shan L, Liu M, Wang Q, Qin Z, Xi Z*, Wang X*, Davis CC*, Liu J*. Prickly waterlilyand rigid hornwort genomes shed light on early angiosperm evolution. Nat Plants. 2020 Feb 24. (共同通讯)
3. The genome of cultivated peanut provides insight into legume karyotypes, polyploid evolution and crop domestication. Nature Genetics.2019 (共同通讯)
4. Recursive paleohexaploidization shapes the durian genome. Plant Physiology. 2019 (通讯作者)
5. Two Likely Auto-Tetraploidization Events Shaped Kiwifruit Genome and Contributed to Establishment of the Actinidiaceae Family. iScience.2018 (通讯作者)
6. An Overlooked Paleotetraploidization in Cucurbitaceae. Molecular Biology and Evolution. 2017 (通讯作者)
7. Hierarchically aligning 10 legume genomes establishes a family-level genomics platform. Plant Physiology. 2017 (通讯作者)
8. Draft genome of the peanut A-genome progenitor(Arachis duranensis) provides insights into geocarpy, oil biosynthesis, and allergens. Plant Biology. 2016 (通讯作者)
9. Genome alignment spanning major Poaceae Lineages Reveals Heterogeneous evolutionary rates and alters inferred dates for key evolutionary events. Molecular Plant. 2015 (第一作者)
10. Telomere-centric genome repatterning determines recurring chromosome number reductions during the evolution of eukaryotes. New Phytologist. 2014 (第一作者)
11. Comparative Analysis of Miscanthus and Saccharum Reveals a Shared Whole-Genome Duplication but Different Evolutionary Fates. Plant Cell. 2014 (共同一作)
12. A physical map of Brassica oleracea shows complexity of chromosomal changes following recursive paleoplyploidizations. BMC Genomics. 2011 (第一作者)
13. Comparative analysis of peanut NBS-LRR gene clusters suggests evolutionary innovation among duplicated domains and erosion of gene microsynteny. New Phytologist. 2011 (共同一作)
14. Seventy million years of concerted evolution of a homoeologous chromosome pair, in parallel, in major Poaceae lineages. Plant Cell. 2011 (第一作者)
15. Comparative genomic analysis of C4 photosynthetic pathway evolution in grasses. Genome Biology. 2009 (第一作者)
16. Comparative inference of illegitimate recombination between rice and sorghum duplicated genes produced by polyploidization. Genome Research. 2009 (第一作者)
17. The Sorghum bicolor genome and the diversification of grasses. Nature. 2009