1998-2022 ChinaKaoyan.com Network Studio. All Rights Reserved. 沪ICP备12018245号
姓名:谢为博
性别:男
职称:教授
学位:博士
电话:027-87280350
邮箱:weibo.xie@mail.hzau.edu.cn
xwbmail@gmail.com
工作单位:
华中农业大学信息学院
研究方向:
水稻基因组学, 系统生物学
教育经历:
2004.9 - 2010.6 华中农业大学 生命科学技术学院 基因组学专业 硕博连读
1999.9 - 2003.9 中南民族大学 化学与生命科学学院 生物技术专业 本科
主要职历
2018.1 - 华中农业大学 信息学院 教授,博士生导师
2014.8 - 2017.12 华中农业大学 信息学院 副教授,博士生导师
2013.1 - 2014.7 华中农业大学 生命科学技术学院 副教授
2010.7 - 2012.12 华中农业大学 生命科学技术学院 讲师
2010.7 - 华中农业大学 作物遗传改良国家重点实验室 固定研究人员
科研成果
主持课题:
国家重点研发计划 杂种优势预测的新方法和强优势新材料 课题,1126万元,2016-2020
国家863计划专项 全基因组选择育种技术平台建设 子课题,240万元,2014-2018
国家863计划专项 水稻组学、资源和生物信息平台的创建 子课题,80万元,2012-2015
国家自然科学基金 基于比较基因组和ATAC-seq注释水稻基因组染色质开放区及其序列变异 面上项目,56万元,2018-2021
国家自然科学基金 整合组学数据剖析水稻籽粒中代谢途径及其调控网络 面上项目,74万元,2016-2019
国家自然科学基金 基于新一代测序技术的高通量基因分型方法的开发与完善 青年基金,24万元,2012-2014
中国科协青年人才托举工程,45万元,2015-2017
本课题组主要以水稻为研究对象。近年来系统开展了多项挖掘利用水稻种质资源遗传变异的工作,鉴定了籼稻育种过程中受选择的基因组位点,为进一步改良水稻提供了重要靶点;并首次在水稻中开展了“非必需基因组”研究,揭示了其组成及对表型的影响,这些研究为进一步挖掘利用水稻优异遗传变异开辟了新途径。同时,作为主要设计人员之一开发了全球第一款水稻育种芯片和后续多款育种芯片,获得发明专利3项,已得到推广应用,并建立了多个水稻生物信息学数据库,为进一步研究与利用水稻种质资源提供了新的平台和工具。相关研究被Nature Plants、Genome Biology等杂志列为研究亮点,予以高度评价。
目前课题组主要从事三个方面的研究:(1)开发鉴定水稻非编码调控元件的组学和计算方法;(2)整合多组学数据开展水稻系统生物学研究;(3)将上述研究结果应用于解析杂种优势的机理。研究方向兼顾基础与应用,具有很好的就业前景,也适合继续深造;课题组既需要“湿实验”人才,也需要“干实验”人才,欢迎生物、数学、物理和计算机相关专业的青年朋友加入(作为硕博生、博士后和科研助理)。
近年发表的论文:
完整文章列表及引用情况请访问:
ORCID http://orcid.org/0000-0002-2768-3572
Google scholar http://scholar.google.com/citations?user=I5zjYOUAAAAJ
# Equal contribution * Corresponding author
1. Yao W, Li G, Zhao H, Wang G, Lian X, Xie W*. Exploring the rice dispensable genome using a metagenome-like assembly strategy. Genome Biology, 2015, 16: 187 (IF 10.8)
Featured as "Research Highlight" in Genome Biology "Harvesting rice’s dispensable genome"
2. Xie W#, Wang G#, Yuan M, Yao W, Lyu K, Zhao H, Yang M, Li P, Zhang X, Yuan J, Wang Q, Liu F, Dong H, Zhang L, Li X, Meng X, Zhang W, Xiong L, He Y, Wang S, Yu S, Xu C, Luo J, Li X, Xiao J, Lian X*, Zhang Q*. Breeding signatures of rice improvement revealed by a genomic variation map from a large germplasm collection. Proc Natl Acad Sci USA, 2015, 112: E5411-E5419 (IF 9.7)
Featured as "Research Highlight" in Nature Plants "Rice breeding: Signature analysis"
3. Zhao H, Yao W, Ouyang Y, Yang W, Wang G, Lian X, Xing Y, Chen L, Xie W*. RiceVarMap: a comprehensive database of rice genomic variations. Nucleic Acids Res, 2015, 43: D1018-1022 (IF 9.1)
4. Wang Q#, Xie W#, Xing H, Yan J, Meng X, Li X, Fu X, Xu J, Lian X, Yu S, Xing Y, Wang G*. Genetic Architecture of Natural Variation in Rice Chlorophyll Content Revealed by a Genome-Wide Association Study. Mol Plant, 2015, 8: 946-957 (IF 6.3)
5. Chen W#, Gao Y#, Xie W#, Gong L#, Lu K#, Wang W, Li Y, Liu X, Zhang H, Dong H, Zhang W, Zhang L, Yu S, Wang G, Lian X*, Luo J*. Genome-wide association analyses provide genetic and biochemical insights into natural variation in rice metabolism. Nat Genet, 2014, 46: 714-721 (IF 29.4)
6. Yu H#, Xie W#, Li J, Zhou F*, Zhang Q*. A whole-genome SNP (RICE6K) for genomic breeding in rice. Plant Biotechnol J, 2014, 12: 28-37 (IF 5.8)
7. Chen H#, Xie W#, He H#, Yu H#, Chen W, Li J, Yu R, Yao Y, Zhang W, He Y, Tang X*, Zhou F*, Deng X W*, Zhang Q*. A High-Density SNP Genotyping for Rice Biology and Molecular Breeding. Mol Plant, 2014, 7: 541-553 (IF 6.3)
8. Cai H#, Xie W#, Zhu T, Lian X*. Transcriptome response to phosphorus starvation in rice. Acta Physiol Plant, 2012, 34: 327-341 (IF 1.6)
9. Xie W, Feng Q, Yua H, Huang X, Zhao Q, Xing Y, Yu S, Han B, Zhang Q*. Parent-independent genotyping for constructing an ultrahigh-density linkage map based on population sequencing. Proc Natl Acad Sci USA, 2010, 119: 151-164 (IF 9.7)
10. Wang L#, Xie W#, Chen Y, Tang W, Yang J, Ye R, Liu L, Lin Y, Xu C, Xiao J, Zhang Q*. A dynamic gene expression atlas covering the entire life cycle of rice. Plant J, 2010, 61: 752-766 (IF 6.0)
11. Xie W, Chen Y, Zhou G, Wang L, Zhang C, Zhang J, Xiao J, Zhu T, Zhang Q*. Single feature polymorphisms between two rice cultivars detected using a median polish method. Theor Appl Genet, 2009, 119: 151-164 (IF 3.8)
12. Wu J, Feng F, Lian X, Teng X, Wei H, Yu H, Xie W, Yan M, Fan P, Li Y, Ma X, Liu H, Yu S, Wang G, Zhou F, Luo L, Mei H. Genome-wide Association Study (GWAS) of mesocotyl elongation based on re-sequencing approach in rice. BMC Plant Biol, 2015, 15:218
13. Zhang L, Mao D, Xing F, Bai X, Zhao H, Yao W, Li G, Xie W, Xing Y. Loss of function of OsMADS3 via the insertion of a novel retrotransposon leads to recessive male sterility in rice (Oryza sativa). Plant Sci, 2015, 238:188-97
14. Wang J, Yao W, Zhu D, Xie W, Zhang Q. Genetic basis of sRNA quantitative variation analyzed using an experimental population derived from an elite rice hybrid. Elife, 2015, 4: e04250
15. Yang Z, Ma H, Hong H, Yao W, Xie W, Xiao J, Li X, Wang S. Transcriptome-based analysis of mitogen-activated protein kinase cascades in the rice response to Xanthomonas oryzae infection. Rice (N Y), 2015, 8: 4
16. Zhang L, Li Q, Dong H, He Q, Liang L, Tan C, Han Z, Yao W, Li G, Zhao H, Xie W, Xing Y. Three CCT domain-containing genes were identified to regulate heading date by candidate gene-based association mapping and transformation in rice. Sci Rep, 2015, 5: 7663
17. Peng B, Kong H, Li Y, Wang L, Zhong M, Sun L, Gao G, Zhang Q, Luo L, Wang G, Xie W, Chen J, Yao W, Peng Y, Lei L, Lian X, Xiao J, Xu C, Li X, He Y. OsAAP6 functions as an important regulator of grain protein content and nutritional quality in rice. Nat Commun, 2014, 5: 4847
18. Songyikhangsuthor K, Guo Z, Wang N, Zhu X, Xie W, Mou T, Xiong L. Natural variation in the sequence of SNAC1 and its expression level polymorphism in rice Germplasms under drought stress. J Genet Genomics, 2014, 41: 609-612
19. Wang J, Yu H, Weng X, Xie W, Xu C, Li X, Xiao J, Zhang Q. An expression quantitative trait loci-guided co-expression analysis for constructing regulatory network using a rice recombinant inbred line population. J Exp Bot, 2014, 65: 1069-1079
20. Wang K, Cui K, Liu G, Xie W, Yu H, Pan J, Huang J, Nie L, Shah F, Peng S. Identification of quantitative trait loci for phosphorus use efficiency traits in rice using a high density SNP map. BMC Genet, 2014, 15: 1276
21. Yang W, Guo Z, Huang C, Duan L, Chen G, Jiang N, Fang W, Feng H, Xie W, Lian X, Wang G, Luo Q, Zhang Q, Liu Q, Xiong L. Combining high-throughput phenotyping and genome-wide association studies to reveal natural genetic variation in rice. Nat Commun, 2014, 5: 5087
22. Li Y, Fan C, Xing Y, Yun P, Luo L, Yan B, Peng B, Xie W, Wang G, Li X, Xiao J, Xu C, He Y. Chalk5 encodes a vacuolar H(+)-translocating pyrophosphatase influencing grain chalkiness in rice. Nat Genet, 2014, 46: 398-404
23. Wang J, Yu H, Weng X, Xie W, Xu C, Li X, Xiao J, Zhang Q. An expression quantitative trait loci-guided co-expression analysis for constructing regulatory network using a rice recombinant inbred line population. J Exp Bot, 2014, 65: 1069-1079
24. Tan C, Han Z, Yu H, Zhan W, Xie W, Chen X, Zhao H, Zhou F, Xing Y. QTL scanning for rice yield using a whole genome SNP . J Genet Genomics, 2013, 40: 629-638
25. Yan W, Liu H, Zhou X, Li Q, Zhang J, Lu L, Liu T, Zhang C, Zhang Z, Shen G, Yao W, Chen H, Yu S, Xie W, Xing Y. Natural variation in Ghd7.1 plays an important role in grain yield and adaptation in rice. Cell Res, 2013, 23: 969-971
26. Cai H, Xie W, Lian X. Comparative Analysis of Differentially Expressed Genes in Rice Under Nitrogen and Phosphorus Starvation Stress Conditions. Plant Molecular Biology Reporter, 2013, 31: 160-173
27. Zhou G, Chen Y, Yao W, Zhang C, Xie W, Hua J, Xing Y, Xiao J, Zhang Q. Genetic composition of yield heterosis in an elite rice hybrid. Proc Natl Acad Sci USA, 2012, 109: 15847-15852
28. Huang J, Zhao X, Weng X, Wang L, Xie W. The rice B-box zinc finger gene family: genomic identification, characterization, expression profiling and diurnal analysis. PLoS ONE, 2012, 7: e48242
29. Cai H, Lu Y, Xie W, Zhu T, Lian X. Transcriptome response to nitrogen starvation in rice. J Biosci, 2012, 37: 731-747
30. Ding J, Shen J, Mao H, Xie W, Li X, Zhang Q. RNA-directed DNA methylation is involved in regulating photoperiod-sensitive male sterility in rice. Mol Plant, 2012, 5: 1210-1216
31. Tie W, Zhou F, Wang L, Xie W, Chen H, Li X, Lin Y. Reasons for lower transformation efficiency in indica rice using Agrobacterium tumefaciens-mediated transformation: lessons from transformation assays and genome-wide expression profiling. Plant Mol Biol, 2012, 78:1-18
32. Jiang Y, Cai Z, Xie W, Long T, Yu H, Zhang Q. Rice functional genomics research: Progress and implications for crop genetic improvement. Biotechnol Adv, 2012, 30:1059-1070
33. Zhang C, Wang J, Xie W, Zhou G, Long M, Zhang Q. Dynamic programming procedure for searching optimal models to estimate substitution rates based on the maximum-likelihood method. Proc Natl Acad Sci USA, 2011, 108: 7860-7865
34. Yu H, Xie W, Wang J, Xing Y, Xu C, Li X, Xiao J, Zhang Q. Gains in QTL detection using an ultra-high density SNP map based on population sequencing relative to traditional RFLP/SSR markers. PLoS ONE, 2011, 6: e17595
35. Wang J, Yu H, Xie W, Xing Y, Yu S, Xu C, Li X, Xiao J, Zhang Q. A global analysis of QTLs for expression variations in rice shoot at early seedling stage. Plant J, 2010, 63: 1063-1074
36. Zhao X, Huang J, Yu H, Wang L, Xie W. Genomic survey, characterization and expression profile analysis of the peptide transporter family in rice (Oryza sativa L.). BMC Plant Biol, 2010, 10: 92
37. Zhou Y, Cao Y, Huang Y, Xie W, Xu C, Li X, Wang S. Multiple gene loci affecting genetic background-controlled disease resistance conferred by R gene Xa3/Xa26 in rice. Theor Appl Genet, 2009, 120: 127-138
38. Ye S, Wang L, Xie W, Wan B, Li X, Lin Y. Expression profile of calcium-dependent protein kinase (CDPKs) genes during the whole lifespan and under phytohormone treatment conditions in rice (Oryza sativa L. ssp. indica). Plant Mol Biol, 2009, 70: 311-325
39. Qiu X, Xie W, Lian X, Zhang Q. Molecular analyses of the rice glutamate dehydrogenase gene family and their response to nitrogen and phosphorous deprivation. Plant Cell Rep, 2009, 28: 1115-1126
40. Qiu D, Xiao J, Xie W, Cheng H, Li X, Wang S. Exploring transcriptional signalling mediated by OsWRKY13, a potential regulator of multiple physiological processes in rice. BMC Plant Biol, 2009, 9: 74
41. Ouyang Y, Chen J, Xie W, Wang L, Zhang Q. Comprehensive sequence and expression profile analysis of Hsp20gene family in rice. Plant Mol Biol, 2009, 70: 341-357
42. Chen J, Ouyang Y, Wang L, Xie W, Zhang Q. Aspartic proteases gene family in rice: Gene structure and expression, predicted protein features and phylogenetic relation. Gene, 2009, 442: 108-118
43. Qiu D, Xiao J, Xie W, Liu H, Li X, Xiong L, Wang S. Rice gene network inferred from expression profiling of plants overexpressing OsWRKY13, a positive regulator of disease resistance. Mol Plant, 2008, 1: 538-551
44. Nuruzzaman M, Gupta M, Zhang C, Wang L, Xie W, Xiong L, Zhang Q, Lian X. Sequence and expression analysis of the thioredoxin protein gene family in rice. Mol Genet Genomics, 2008, 280: 139-151
45. Nayidu N K, Wang L, Xie W, Zhang C, Fan C, Lian X, Zhang Q, Xiong L. Comprehensive sequence and expression profile analysis of PEX11 gene family in rice. Gene, 2008, 412: 59-70
46. Gupta M, Qiu X, Wang L, Xie W, Zhang C, Xiong L, Lian X, Zhang Q. KT/HAK/KUP potassium transporters gene family and their whole-life cycle expression profile in rice (Oryza sativa). Mol Genet Genomics, 2008, 280: 437-452
47. Fang Y, You J, Xie K, Xie W, Xiong L. Systematic sequence analysis and identification of tissue-specific or stress-responsive genes of NAC transcription factor family in rice. Mol Genet Genomics, 2008, 280: 547-563
已批准专利:
1. 周发松,谢为博,喻辉辉,李菁,张启发. 一种水稻全基因组SNP芯片及其应用. 专利号:201210055775
2. 周发松,陈浩东,谢为博,何航,喻辉辉,唐晓艳,李菁,周君莉,何予卿,陈伟,张启发,邓兴旺. 水稻全基因组育种芯片及其应用. 专利号:201380056318
3. 谢为博,张启发,练兴明,王功伟. 一种基于受选择位点指数评估动植物品种育种潜力的方法及其应用. 专利号:201510551134
备注入选首批中国科协青年人才托举工程
2012年全国优秀博士学位论文提名论文
2011年湖北省优秀博士学位论文
担任PNAS、Nature Communications、Bioinformatics、Scientific Reports、PLoS ONE、BMC Genomics和TAG等杂志审稿人
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