领域:生物产业 学校:南京大学职称:教授
主要从事分子遗传与进化、生物信息学研究方向:
(1)基因组遗传变异的分子机制;
(2)植物抗病基因的起源、遗传变异与保存机制、功能等;
(3)植物基因组学、植物功能基因组学;
详细请访问实验室网站:http://gattaca.nju.edu.cn/
代表性研究论文:
Yang S, Wang L, Huang J, Zhang X, Yuan Y,Chen J-Q, Hurst LD*, Tian D* (2015). Parent-progeny sequencing indicates highermutation rates in heterozygotes. Nature 523 :463-467 (IF5y=41.5)
Wang L, Zhao L, Zhang X, Zhang Q, Jia Y, Wang G, Li S, Tian D, Li WS*, Yang S* (2019) Large-scale identification and functional analysis of NLR genes in blast resistance in the Tetep rice genome sequence. PNAS 10.1073/pnas.1910229116 (IF5y=10.5)
Wang L, Ji Y, Hu Y, Hu H, Jia X, Jiang M, Zhang X, Zhao L, Zhang Y, Jia Y, Qin C, Yu L, Huang J, Yang S*, Hurst LD* and Tian D*. (2019) The architecture of intra-organism mutation rate variation in plants. Plos Biol 17(4):e3000191 (IF5y=9.5)
Liu H, Huang J, Sun X, Li J, Hu Y, Yu L,Liti G, Tian D, Hurst LD*, Yang S*. (2018) Tetrad analysis in plants and fungifinds large differences in gene conversion rates but no GC bias. Nature Ecol Evol 2, 164–173 (IF=10.95)
Chen J, Hao Z, Guang X, Zhao C, Wang P, Xue L, Zhu Q, Yang L, Yu Sheng1 , Zhou Y, Xu H, Xie H, Long X, Zhang J, Wang Z, Shi M, Lu Y, Liu S, Guan L, Zhu Q, Yang L, Ge S , Cheng T, Laux T, Gao Q, Peng Y, Liu N*, Yang S*, Shi J* (2018) Liriodendron genome sheds light on angiosperm phylogeny and species-pair differentiation. Nature Plants 10.1038/s41477-018-0323-6 (IF=13.2)
Huang J, Li J, Zhou J, Wang L, Yang S, Hurst LD, Li W-H* & Tian D*. (2018) Identifying a Large Number of High-Yield Genes in Rice by Pedigree Analysis, Whole-Genome Sequencing, and CRISPR-Cas9 Gene Knockout. PNAS 115(32): E7559-E7567
Liu H, Jia Y, Sun X, Tian D, Hurst LD*,Yang S*. (2017) Direct determination of the mutation rate in the bumblebeereveals evidence for weak recombination-associated mutation and an approximaterate constancy in insects. Mol Biol Evol 34: 119-130 (IF5y=14.5)
Liu H#, Zhang X#, Huang J, Chen JQ, Tian D,Hurst LD*, Yang S*. (2015) Causes and consequences of crossing-over evidencedvia a high-resolution recombinational landscape of the honey bee. Genome Biology 16:15(IF5y=18.5)
Chen X, Tian X, Xue L, Zhang X, Yang S*, Traw M*, Huang J*. (2019) CRISPR-based assessment of gene specialization in the gibberellin metabolic pathway in rice. Plant Physiol 180(4):2091-2105 (IF5y=7.3)
Jia X, Zhang Y, Zhang Q, Zhao Q, Wang L, Traw M, Tian D, Wang C*, Yang S*. (2018) High resolution insight into recombination events at the SD1 locus in rice. Plant J DOI: 10.1111/tpj.14154
Gu L, Wu Y, Jiang M, Si W, Zhang X, TianD*, Yang S*. (2016) Dissimilar Manifestation of Heterosis in Super Hybrid Riceat Early-Tillering Stage under Nutrient-Deficient and Nutrient-SufficientCondition. Plant Physiol 172: 1142-1153 (IF5y=7.367)
Xie Z, Wang L, Wang L, Wang Z, Lu, Z, TianD, Yang S*, Hurst LD.* (2016) Mutation rate analysis via parent-progenysequencing of the perennial peach I. A low rate in woody perennials and ahigher mutagenicity in hybrids. P Roy Soc B-Biol Sci 283: 20161016.(IF5y=5.366)
Wang L, Zhang Y, Qing C, Tian D, Yang S*,Hurst LD.* Mutation rate analysis via parent-progeny sequencing of theperennial peach II: No evidence for recombination-associated mutation. P RoySoc B-Biol Sci 283: 20161785 (IF5y=5.366)
Si W, Yuan Y, Huang J, Zhang X, Zhang Y,Zhang Y, Tian D, Wang C, Yang YH*, Yang S*. (2015) Widely distributed hot andcold spots in meiotic recombination as shown by sequencing of rice F2 plants. New Phytologist 206 :1491-1502 (IF5y=7.84)
Zhang X#, Yang S#, Wang J#, Jia Y#, HuangJ#, Zhong Y, Tan S, Wang L, Gu L, Chen JQ, Pan QH*, Bergelson J*, Tian D*.(2015) A genome-wide survey reveals abundant rice blast R-genes in resistantcultivars. Plant J 84 :20-28 (IF5y =6.963)
Yang S#, Li J#, Zhang X#, Zhang Q, Huang J,Chen J-Q, Hartl DL*, Tian D*. (2013) Rapidly evolving R genes in diverse grassspecies confer resistance to rice blast disease. Proc Natl Acad Sci U S A 110:18572-18577. (IF5y=10.73)
Yang S#, Yuan Y#, Wang L#, Li J, Wang W,Liu H, Chen JQ, Hurst LD*, Tian D*. (2012) Great majority of recombinationevents in Arabidopsis are gene conversion events. Proc Natl Acad Sci U S A 109:20992–20997. (IF5y=10.73)
Yue J-X, Meyers BC, Chen J-Q, Tian D*, YangS*. (2012) Tracing the origin and evolutionary history of plantnucleotide-binding site-leucine-rich repeat (NBS-LRR) genes. New Phytologist 193: 1049–1063.(IF5y=7.84)
Tian D, Wang Q, Zhang P, Araki H, Yang S, Kreitman M, Nagylaki T, Hudson R, Bergelson J & Chen JQ. (2008) Single-nucleotide mutation rate increases close to indels in eukaryotes. Nature 455:105-108
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具体了解该专家信息,请致电:027-87555799 邮箱 haizhi@uipplus.com
Yang S, Wang L, Huang J, Zhang X, Yuan Y,Chen J-Q, Hurst LD*, Tian D* (2015). Parent-progeny sequencing indicates highermutation rates in heterozygotes.Nature523 :463-467 (IF5y=41.5)
Wang L, Zhao L, Zhang X, Zhang Q, Jia Y, Wang G, Li S, Tian D, Li WS*,Yang S*(2019) Large-scale identification and functional analysis ofNLRgenes in blast resistance in the Tetep rice genome sequence.PNAS 10.1073/pnas.1910229116(IF5y=10.5)
Wang L, Ji Y, Hu Y, Hu H, Jia X, Jiang M,Zhang X, Zhao L, Zhang Y, Jia Y, Qin C, Yu L, Huang J,Yang S*, Hurst LD* and Tian D*. (2019)The architecture of intra-organism mutation rate variation in plants.Plos Biol17(4):e3000191 (IF5y=9.5)
Liu H, Huang J, Sun X, Li J, Hu Y, Yu L,Liti G, Tian D, Hurst LD*,Yang S*. (2018) Tetrad analysis in plants and fungifinds large differences in gene conversion rates but no GC bias.Nature Ecol Evol 2, 164–173 (IF=10.95)
Chen J, Hao Z, Guang X, Zhao C, Wang P, Xue L, Zhu Q, Yang L, Yu Sheng1 , Zhou Y, Xu H, Xie H, Long X, Zhang J, Wang Z, Shi M, Lu Y, Liu S, Guan L, Zhu Q, Yang L, Ge S , Cheng T, Laux T, Gao Q, Peng Y, Liu N*,Yang S*, Shi J* (2018) Liriodendron genome sheds light on angiosperm phylogeny and species-pair differentiation.Nature Plants 10.1038/s41477-018-0323-6 (IF=13.2)
Huang J, Li J, Zhou J, Wang L,Yang S, Hurst LD, Li W-H* & Tian D*. (2018) Identifying a Large Number of High-Yield Genes in Rice by Pedigree Analysis, Whole-Genome Sequencing, and CRISPR-Cas9 Gene Knockout.PNAS115(32): E7559-E7567
Liu H, Jia Y, Sun X, Tian D, Hurst LD*,Yang S*.(2017) Direct determination of the mutation rate in the bumblebeereveals evidence for weak recombination-associated mutation and an approximaterate constancy in insects.Mol Biol Evol34: 119-130 (IF5y=14.5)
Liu H#, Zhang X#, Huang J, Chen JQ, Tian D,Hurst LD*,Yang S*.(2015) Causes and consequences of crossing-over evidencedvia a high-resolution recombinational landscape of the honey bee.Genome Biology16:15(IF5y=18.5)
Chen X, Tian X, Xue L, Zhang X,Yang S*, Traw M*, Huang J*. (2019) CRISPR-based assessment of gene specialization in the gibberellin metabolic pathway in rice.Plant Physiol180(4):2091-2105(IF5y=7.3)
Jia X, Zhang Y, Zhang Q, Zhao Q, Wang L, Traw M, Tian D, Wang C*,Yang S*. (2018) High resolution insight into recombination events at the SD1 locus in rice.Plant J DOI: 10.1111/tpj.14154
Gu L, Wu Y, Jiang M, Si W, Zhang X, TianD*,Yang S*. (2016) Dissimilar Manifestation of Heterosis in Super Hybrid Riceat Early-Tillering Stage under Nutrient-Deficient and Nutrient-SufficientCondition.Plant Physiol172: 1142-1153 (IF5y=7.367)
Xie Z, Wang L, Wang L, Wang Z, Lu, Z, TianD,Yang S*, Hurst LD.* (2016) Mutation rate analysis via parent-progenysequencing of the perennial peach I. A low rate in woody perennials and ahigher mutagenicity in hybrids.P Roy Soc B-Biol Sci283: 20161016.(IF5y=5.366)
Wang L, Zhang Y, Qing C, Tian D,Yang S*,Hurst LD.* Mutation rate analysis via parent-progeny sequencing of theperennial peach II: No evidence for recombination-associated mutation.P RoySoc B-Biol Sci283: 20161785 (IF5y=5.366)
Si W, Yuan Y, Huang J, Zhang X, Zhang Y,Zhang Y, Tian D, Wang C, Yang YH*,Yang S*. (2015) Widely distributed hot andcold spots in meiotic recombination as shown by sequencing of rice F2 plants.New Phytologist206 :1491-1502 (IF5y=7.84)
Zhang X#,Yang S#, Wang J#, Jia Y#, HuangJ#, Zhong Y, Tan S, Wang L, Gu L, Chen JQ, Pan QH*, Bergelson J*, Tian D*.(2015) A genome-wide survey reveals abundant rice blast R-genes in resistantcultivars.Plant J84 :20-28 (IF5y =6.963)
Yang S#, Li J#, Zhang X#, Zhang Q, Huang J,Chen J-Q, Hartl DL*, Tian D*. (2013) Rapidly evolving R genes in diverse grassspecies confer resistance to rice blast disease.Proc Natl Acad Sci U S A110:18572-18577. (IF5y=10.73)
Yang S#, Yuan Y#, Wang L#, Li J, Wang W,Liu H, Chen JQ, Hurst LD*, Tian D*. (2012) Great majority of recombinationevents in Arabidopsis are gene conversion events.Proc Natl Acad Sci U S A 109:20992–20997. (IF5y=10.73)
Yue J-X, Meyers BC, Chen J-Q, Tian D*,YangS*. (2012) Tracing the origin and evolutionary history of plantnucleotide-binding site-leucine-rich repeat (NBS-LRR) genes.New Phytologist193: 1049–1063.(IF5y=7.84)
Tian D, Wang Q, Zhang P, Araki H,Yang S, Kreitman M, Nagylaki T, Hudson R, Bergelson J & Chen JQ. (2008) Single-nucleotide mutation rate increases close to indels in eukaryotes.Nature455:105-108
