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博文

2022年小结

已有 3499 次阅读 2023-1-8 15:06 |个人分类:科研笔记|系统分类:科研笔记

总共发表13篇论文,其中9篇通讯(包括共同)作者论文。1篇最后通讯,8篇倒数第二通讯。

  1. 71) Mondal S, Song H, Zhang L, Cao Y.   Editorial: Multi-omics and computational biology in horticultural plants: From genotype to phenotype. Front Plant Sci. 2022 Nov 16;13:1073266. doi: 10.3389/fpls.2022.1073266. eCollection 2022.

  2. 70)Han D, Li W, Hou Z, Lin C, Xie Y, Zhou X, Gao Y, Huang J, Lai J, Wang L, Zhang L*, Yang C*. The chromosome-scale assembly of the Salvia rosmarinus genome reveals key genes in carnosic acid biosynthesis.   The Plant Journal.  2022 Dec 29. doi: 10.1111/tpj.16087.

  3. 69)Xu et al., Zhang L*. The novel genome sequence of Jasminum sambac helps uncover the molecular mechanism underlying the accumulation of jasmonates.Journal of Experimental Botany2022 Nov 26:erac464. doi: 10.1093/jxb/erac464  erac464.pdf

  4. 68)Guangming Shao, Tianliang He, Yinnan Mu, ..., Dinggao Liu, Liangsheng Zhang*, Xinhua Chen*. The genome of a hadal sea cucumber reveals novel adaptive strategies to deep-sea environmentsiScience 25, 105545 December 22, 2022

  5. 67)Guangzhen Zhou, Hongyan Yin, Fei Chen,et al., Liangsheng Zhang*, Yinglang Wan*  The genome of Areca catechu provides insights into sex determination of monoecious plants. New Phytologist236(6):2327-2343, 30 Sep 2022  (IF=10.15)

  6. 66) Liang Y, Li F, Gao Q,et al.,, Zhou X*, Zhang L*, Wang J*. The genome of Eustoma grandiflorum reveals the whole-genome triplication event contributing to ornamental traits in cultivated lisianthusPlant Biotechnol J. 2022 Oct;20(10):1856-1858.(IF=13.263)

  7. 65)Zhang B, Wang Z, et al.,, Yu S, Gao Q, , Li D*.  The chromosome-scale assembly of endive (Cichorium endivia) genome provides insights into the sesquiterpenoid biosynthesisGenomics. 114(4):110400, 09 Jun 2022 

  8. 64)Fan li, Yuan Gao, et al., Liangsheng Zhang*, Jihua wang*. The chromosome-level genome of gypsophila paniculata reveals the molecular mechanism of floral development and ethylene insensitivit Horticulture Research, 9:uhac176, 24 Aug 2022  (IF=7.29

  9. 63)Yun Wu, Jing Wen, Yiping Xia, Liangsheng Zhang*, Hai Du*.  Evolution and functional diversification of R2R3-MYB transcription factors in plants.  Horticulture Research, Volume 9, 2022, uhac058  uhac058.pdf (IF=7.29

  10. 62)Wen X, Li J, et al., Wang Z*, Jiao Y*, Zhang L*, Dai S*.  The chrysanthemum lavandulifolium genome and the molecular mechanism underlying diverse capitulum types . Horticulture Research. uhab022, 18 Jan 2022.  uhab022.pdf  (IF=7.29

  11. 61)Li L, Chen X, Fang D, Dong S, Guo X, Li N, Campos-Dominguez L, Wang W, Liu Y, Lang X, Peng Y, Tian D, Thomas DC, Mu W, Liu M, Wu C, Yang T, Zhang S, Yang L, Yang J, Liu ZJ, Zhang L, Zhang X, Chen F, Jiao Y, Guo Y, Hughes M, Wang W, Liu X, Zhong C, Li A, Sahu SK, Yang H, Wu E, Sharbrough J, Lisby M, Liu X, Xu X, Soltis DE, Van de Peer Y, Kidner C, Zhang S, Liu H.  Genomes shed light on the evolution of Begonia, a mega-diverse genus. New Phytologist. 2022 Apr;234(1):295-310. (IF=10.15)

  12. 60)Liu Y, Wang S, Li L, Yang T, Dong S, Wei T, Wu S, Liu Y, Gong Y, Feng X, Ma J, Chang G, Huang J, Yang Y, Wang H, Liu M, Xu Y, Liang H, Yu J, Cai Y, Zhang Z, Fan Y, Mu W, Sahu SK, Liu S, Lang X, Yang L, Li N, Habib S, Yang Y, Lindstrom AJ, Liang P, Goffinet B, Zaman S, Wegrzyn JL, Li D, Liu J, Cui J, Sonnenschein EC, Wang X, Ruan J, Xue JY, Shao ZQ, Song C, Fan G, Li Z, Zhang L, Liu J, Liu ZJ, Jiao Y, Wang XQ, Wu H, Wang E, Lisby M, Yang H, Wang J, Liu X, Xu X, Li N, Soltis PS, Van de Peer Y, Soltis DE, Gong X, Liu H, Zhang S. The Cycas genome and the early evolution of seed plants. Nature Plants. 2022 Apr;8(4):389-401. doi: 10.1038/s41477-022-01129-7. 

  13. 59) Li D, Shao L, Zhang J, Wang X, Zhang D, Horvath DP, Zhang L, Zhang J, Xia Y. MADS-box transcription factors determine the duration of temporary winter dormancy in closely related evergreen and deciduous Iris spp. Journal of Experimental Botany . 2022 Mar 2;73(5):1429-1449. 




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