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• Annual Accumulation of CymMV May Lead to Loss in Production of Asymptomatic Vanilla Propagated by Cuttings

  作者：Gu, Fenglin;Ji, Changmian;Wang, Yu;Zhao, Qingyun;Gu, Fenglin;Xu, Fei;Wu, Guiping;Zhu, Hongying;Zhao, Qingyun;Zhang, Zhiyuan

  关键词：Vanilla planifolia Andrews; glucovanillin; transcriptome; Cymbidium mosaic virus

• Characterization of tomato autophagy-related SlCOST family genes

  作者：Wang, Jiaojiao;Li, Yanjie;Niu, Yue;Liu, Yao;Zhang, Qian;Lv, Yonglun;Wang, Xinhua;Bao, Yan;Li, Shuxia

  关键词：Autophagy; COST; DUF641; SlCOST; Tomato; Stress tolerance; ATG8

• Genomic and Transcriptomic Insights into the Evolution and Divergence of MIKC-Type MADS-Box Genes in Carica papaya

  作者：Dai, Yunsu;Wang, Yu;Liu, Difa;Xia, Wei;Dai, Yunsu;Wang, Yu;Jia, Ruizong;Huang, Xueying;Zhao, Hui;Zhao, Haixu;Hu, Shuai;Gao, Ling;Guo, Anping;Ji, Changmian;Dai, Yunsu;Wang, Yu;Jia, Ruizong;Huang, Xueying;Zhao, Hui;Zhao, Haixu;Hu, Shuai;Gao, Ling;Guo, Anping;Ji, Changmian;Wang, Yu;Jia, Ruizong;Zhao, Hui;Hu, Shuai;Guo, Anping;Ji, Changmian;Zeng, Liwang;He, Linwen;Huang, Xueying;Liu, Difa;Gao, Ling

  关键词：Carica papaya; type II MADS-box; evolutional scenario; duplicated genes; large-scale transcriptomes; expression divergence

• Phylogenetic Analyses and Transcriptional Survey Reveal the Characteristics, Evolution, and Expression Profile of NBS-Type Resistance Genes in Papaya

  作者：Jiang, Qian;Wang, Yu;Zhao, Hui;Jia, Ruizong;Ji, Changmian;Guo, Anping;Jiang, Qian;Zhao, Hui;Jia, Ruizong;Ji, Changmian;Guo, Anping;Jiang, Qian;An, Huaming;Xiong, Aisheng;Li, Mengyao

  关键词：Carica papaya; NLRs; insertion-derived; biotic stress; expression divergence; transcriptomic network

• Editorial: Evolution of crop genomes and epigenomes

  作者：Du, Hai;Du, Hai;Du, Hai;Du, Hai;Hu, Wei;Demko, Viktor;Demko, Viktor;Liang, Zhe

  关键词：multi-omics; crops; genome; epigenome; evolution; epigenomics

• Resequencing of 388 cassava accessions identifies valuable loci and selection for variation in heterozygosity

  作者：Hu, Wei;Ji, Changmian;Ding, Zehong;Tie, Weiwei;Yan, Yan;Guo, Anping;Hu, Wei;Ji, Changmian;Ding, Zehong;Tie, Weiwei;Yan, Yan;Yang, Jinghao;Jin, Zhiqiang;Xie, Jianghui;Peng, Ming;Wang, Wenquan;Guo, Anping;Xu, Biyu;Guo, Jianchun;Hu, Wei;Ji, Changmian;Ding, Zehong;Tie, Weiwei;Yan, Yan;Yang, Jinghao;Jin, Zhiqiang;Xie, Jianghui;Peng, Ming;Wang, Wenquan;Guo, Anping;Xu, Biyu;Guo, Jianchun;Liang, Zhe;Ye, Jianqiu;Ou, Wenjun;Chen, Songbi;Xiao, Xinhui;Wan, Zhongqing;An, Feifei;Zhang, Jie;Leng, Qingyun;Li, Kaimian;Zhou, Gang;Ma, Liming;Wang, Mingcheng;Zhou, Yang;Li, Xiaolong;Yang, Xiaoying;Wei, Yunxie;Shi, Haitao;Li, Ruoxi;Li, Yin;Ming, Ray;Ming, Ray

  关键词：Resequencing; Cassava; Heterozygosity; Selection; Agronomic traits

• Allele-defined genome reveals biallelic differentiation during cassava evolution

  作者：Hu, Wei;Ji, Changmian;Ding, Zehong;Tie, Weiwei;Guo, Anping;Hu, Wei;Ji, Changmian;Ding, Zehong;Tie, Weiwei;Yan, Yan;Yang, Jinghao;Jin, Zhiqiang;Xie, Jianghui;Peng, Ming;Wang, Wenquan;Guo, Anping;Xu, Biyu;Guo, Jianchun;Li, Kaimian;Hu, Wei;Ding, Zehong;Tie, Weiwei;Yan, Yan;Yang, Jinghao;Jin, Zhiqiang;Xie, Jianghui;Peng, Ming;Wang, Wenquan;Xu, Biyu;Guo, Jianchun;Ji, Changmian;Zhou, Gang;Ma, Liming;Wang, Mingcheng;Zhou, Yang;Li, Xiaolong;Shi, Haitao;Wei, Yunxie;Liang, Zhe;Ye, Jianqiu;Ou, Wenjun;Chen, Songbi;Xiao, Xinhui;Wan, Zhongqing;An, Feifei;Zhang, Jie;Leng, Qingyun;Li, Kaimian;Yang, Xiaoying;Li, Ruoxi;Guo, Siyi;Li, Yin;Ming, Ray;Ming, Ray

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