Shaping polyploid wheat for success:Origins,domestication,and the genetic improvement of agronomic traits 被引量：6

导出

摘要 Bread wheat(Triticum aestivum L.,AABBDD,2 n=6 x=42),which accounts for most of the cultivated wheat crop worldwide,is a typical allohexaploid with a genome derived from three diploid wild ancestors.Bread wheat arose and evolved via two sequential allopolyploidization events and was further polished through multiple steps of domestication.Today,cultivated allohexaploid bread wheat has numerous advantageous traits,including adaptive plasticity,favorable yield traits,and extended end-use quality,which have enabled its cultivation well beyond the ranges of its tetraploid and diploid progenitors to become a global staple food crop.In the past decade,rapid advances in wheat genomic research have considerably accelerated our understanding of the bases for the shaping of complex agronomic traits in this polyploid crop.Here,we summarize recent advances in characterizing major genetic factors underlying the origin,evolution,and improvement of polyploid wheats.We end with a brief discussion of the future prospects for the design of gene cloning strategies and modern wheat breeding.

作者 Jie Liu Yingyin Yao Mingming Xin Huiru Peng Zhongfu Ni Qixin Sun

机构地区 State Key Laboratory for Agrobiotechnology

出处《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2022年第2期536-563,共28页 植物学报（英文版）

基金 supported by the National Natural Science Foundation of China(31991214,91935304,32072055,and 91935302)。

关键词 adaptation bread wheat DOMESTICATION end-use quality photoperiod response POLYPLOID semi-dwarfing breeding VERNALIZATION

分类号 S512.1 [农业科学—作物学]

引文网络
相关文献

参考文献7

1Hongwei Zhang,Xi Wang,Qingchun Pan,Pei Li,Yunjun Liu,Xiaoduo Lu,Wanshun Zhong,Minqi Li,Linqian Han,Juan Li,Pingxi Wang,Dongdong Li,Yan Liu,Qing Li,Fang Yang,Yuan-Ming Zhang,Guoying Wang,Lin Li.QTG-Seq Accelerates QTL Fine Mapping through QTL Partitioning and Whole-Genome Sequencing of Bulked Segregant Samples[J].Molecular Plant,2019,12(3):426-437. 被引量：20
2Kenji Yano,Taiichiro Ookawa,Koichiro Aya,Yusuke Ochiai,Tadashi Hirasawa,Takeshi Ebitani,Takeshi Takarada,Masahiro Yano,Toshio Yamamoto,Shuichi Fukuoka,Jianzhong Wu,Tsuyu Ando,Reynante Lacsamana Ordonio,Ko Hirano,Makoto Matsuoka.Isolation of a Novel Lodging Resistance QTL Gene Involved in Strigolactone Signaling and Its Pyramiding with a QTL Gene Involved in Another Mechanism[J].Molecular Plant,2015,8(2):303-314. 被引量：19
3Shujuan Xu,Qi Dong,Min Deng,Dexing Lin,Jun Xiao,Peilei Cheng,Lijing Xing,Yuda Niu,Caixia Gao,Wenhao Zhang,Yunyuan Xu,Kang Chong.The vernalization-induced long non-coding RNA VAS functions with the transcription factor TaRF2b to promote TaVRN1 expression for flowering in hexaploid wheat[J].Molecular Plant,2021,14(9):1525-1538. 被引量：11
4Yonggui XIAO,Jianjun LIU,Haosheng LI,Xinyou CAO,Xianchun XIA,Zhonghu HE.Lodging resistance and yield potential of winter wheat:effect of planting density and genotype[J].Frontiers of Agricultural Science and Engineering,2015,2(2):168-178. 被引量：9
5Jin Xiao,Yan Chen,Yifan Lu,Zhipeng Liu,Dongmei Si,Tao Xu,Li Sun,Zongkuan Wang,Chunxia Yuan,Haojie Sun,Xu Zhang,Mingxing Wen,Luyang Wei,Wenli Zhang,Haiyan Wang,Xiue Wang.A natural variation of an SVP MADS-box transcription factor in Triticum petropavlovskyi leads to its ectopic expression and contributes to elongated glume[J].Molecular Plant,2021,14(9):1408-1411. 被引量：3
6Karel Van De Velde,Stephen GThomas,Floor Heyse,Rim Kaspar,Dominique Van Der Straeten,Antje Rohde.N-terminal truncated RHT-1 proteins generated by translational reinitiation cause semi-dwarfing of wheat Green Revolution alleles[J].Molecular Plant,2021,14(4):679-687. 被引量：11
7Junsheng Qi,Chun-Peng Song,Baoshan Wang,Jianmin Zhou,Jaakko Kangasjarvi,Jian-Kang Zhu,Zhizhong Gong.Reactive oxygen species signaling and stomatal movement in plant responses to drought stress and pathogen attack[J].Journal of Integrative Plant Biology,2018,60(9):805-826. 被引量：61

二级参考文献63

1WANG Jian,ZHU Jinmao,LIN Qinqin,LI Xiaojuan,TENG Nianjun,LI Zhensheng,LI Bin,ZHANG Aimin,LIN Jinxing.Effects of stem structure andcell wall components on bending strength in wheat[J].Chinese Science Bulletin,2006,51(7):815-823. 被引量：34
2Ashikari, M., Sakakibara, H., Lin, S., Yamamoto, T., Takashi, T., Nishimura, A., Angeles, E.R., Qian, Q., Kitano, H., Matsuoka, M., 2005. Cytokinin oxidase regulates rice grain production. Science 309, 741-745. 被引量：1
3Bart, R., Chern, M., Park, C.J., Bartley, L., Ronald, P.C., 2006. A novel system for gene silencing using siRNAs in rice leaf and stem-derived protoplasts. Plant Methods 2, 13. 被引量：1
4Barton, M.K., 2010. Twenty years on: the inner workings of the shoot apical meristem, a developmental dynamo. Dev. Biol. 341, 95-113. 被引量：1
5Bartrina, I., Otto, E., Strnad, M., Werner, T., Schmulling, T., 2011. Cytokinin regulates the activity of reproductive meristems, flower organ size, ovule formation, and thus seed yield in Arabidopsis thaliana. Plant Cell 23, 69-80. 被引量：1
6Busch, W., Miotk, A., Ariel, ED., Zhao, Z., Forner, J., Daum, G., Suzaki, T., Schuster, C., Schultheiss, S.J., Leibfried, A., Haubei, S., Ha, N., Chan, R.L., 2010. Transcriptional control of a plant stem cell niche. Dev. Cell 18, 849-861. 被引量：1
7Dai, M., Hu, Y., Zhao, Y., Liu, H., Zhou, D.X., 2007. A WUSCHEL-LIKE HOMEOBOX gene represses a YABBY gene expression required for rice leaf development. Plant Physiol. 144, 380-390. 被引量：1
8El-Showk, S., Ruonala, R., Helariutta, Y., 2013. Crossing paths: cytokinin signalling and crosstalk. Development 140, 1373-1383. 被引量：1
9Ferguson, B.J., Beveridge, C.A., 2009. Roles for auxin, cytokinin, and stri- golactone in regulating shoot branching. Plant Physiol. 149, 1929-1944. 被引量：1
10Fletcher, J.C., Brand, U., Running, M.P., Simon, R., Meyerowitz, E.M., 1999. Signaling of cell fate decisions by CLAVATA 3 in Arabidopsis shoot meristems. Science 283, 1911-1914. 被引量：1

共引文献495

1董好胜,王琦,闫鹏,许艳丽,张薇,卢霖,董志强.乙矮合剂对谷子茎秆抗倒伏能力及产量的影响[J].作物杂志,2023(6):181-189.
2李琬,项洪涛,何宁,王雪扬,刘淼,王曼力,王彤彤,唐晓东,李一丹.烯效唑(S3307)提高作物抗逆性研究进展[J].中国农学通报,2020(20):101-106. 被引量：20
3李任任,吕春华,於丽华,王宇光,耿贵.滤泥对改良酸性土、促进甜菜生长的施用效果研究[J].中国农学通报,2020,0(7):22-28. 被引量：4
4胡江,钱前.作物生物育种科技发展的现状及展望[J].中国基础科学,2022(6):1-8. 被引量：3
5崔涛,董佳琪,杨瑞梅,张东兴,杨丽,李克鸿.玉米植株抗倒性测量装置设计与试验[J].农业机械学报,2022,53(10):126-136.
6祝国红,夏永辉,杨翠薇.新生儿高钾血症的病因及治疗探讨[J].浙江预防医学,2000,12(3):35-36. 被引量：1
7张惠英.重症监护室空气消毒的动态监测[J].中华医院感染学杂志,2000,10(2):127-127. 被引量：16
8张中元.装载机液压油的选用及污染控制[J].化工矿物与加工,2000,29(3):19-21. 被引量：3
9骆正军.“望、闻、问、切”听课法[J].教学与管理（中学版）,2000(8):34-36. 被引量：1
10曹百穹,王满苹,李云东,朱娟花,孙晓晖,陈睿鹏,胡建东.角度不敏感玉米茎秆抗弯强度的测定研究[J].河南农业大学学报,2014,48(2):162-166. 被引量：1

同被引文献117

1Wenjing Sun,Huili Zhang,Sen Yang,Lijing Liu,Peng Xie,Jian Li,Yaoyao Zhu,Yidan Ouyang,Qi Xie,Huawei Zhang,Feifei Yu.Genetic modification of Gγ subunit AT1 enhances salt-alkali tolerance in main graminaceous crops[J].National Science Review,2023,10(6):54-57. 被引量：4
2MI GuoHua,CHEN FanJun,WU QiuPing,LAI NingWei,YUAN LiXing,ZHANG FuSuo.Ideotype root architecture for efficient nitrogen acquisition by maize in intensive cropping systems[J].Science China(Life Sciences),2010,53(12):1369-1373. 被引量：40
3张丽娟,巨晓棠,高强,张福锁.两种作物对土壤不同层次标记硝态氮利用的差异[J].中国农业科学,2005,38(2):333-340. 被引量：21
4薛香,郜庆炉.光温生态因子对冬小麦幼穗分化的影响研究[J].中国生态农业学报,2005,13(4):56-59. 被引量：13
5曾祥艳,张增艳,杜丽璞,辛志勇,陈孝.分子标记辅助选育兼抗白粉病、条锈病、黄矮病小麦新种质[J].中国农业科学,2005,38(12):2380-2386. 被引量：30
6Ya-Ping Chen Hua-Zhong Wang Ai-Zhong Cao Chun-Mei Wang Pei-Du Chen.Cloning of a Resistance Gene Analog from Wheat and Development of a Codominant PCR Marker for Pm21[J].Journal of Integrative Plant Biology,2006,48(6):715-721. 被引量：10
7YONG Weidong, CHONG Kang , LIANG Tiebing, XU Zhihong , TAN Kehui and ZHU Zhiqing Research Center for Molecular and Developmental Biology, Institute of Botany, Chinese Academy of Sciences , Beijing 100093, China ,Shanghai Institute of Plant Physiology , Chinese Academy of Sciences , Shanghai 200032, China Corresponding authors.Cloning and characterization of vernalization-related gene (ver203F) cDNA 3'end[J].Chinese Science Bulletin,1999,44(14):1289-1294. 被引量：4
8Qing-Ming Sun,Rong-Hua Zhou,Li-Feng Gao,Guang-Yao Zhao,Ji-Zeng Jia.The Characterization and Geographical Distribution of the Genes Responsible for Vernalization Requirement in Chinese Bread Wheat[J].Journal of Integrative Plant Biology,2009,51(4):423-432. 被引量：12
9Fengli Sun,Weiping Zhang,Guosheng Xiong,Meixian Yan,Qian Qian,Jiayang Li,Yonghong Wang.Identification and functional analysis of the MOC1 interacting protein 1[J].Journal of Genetics and Genomics,2010,37(1):69-77. 被引量：12
10乔文臣,陈秀敏,魏建伟,李丁,孙书娈,孟祥海.小麦新品种衡观35温光特性研究[J].河北农业科学,2010,14(9):1-3. 被引量：1

引证文献6

1Jun Xiao,Bao Liu,Yingyin Yao,Zifeng Guo,Haiyan Jia,Lingrang Kong,Aimin Zhang,Wujun Ma,Zhongfu Ni,Shengbao Xu,Fei Lu,Yuannian Jiao,Wuyun Yang,Xuelei Lin,Silong Sun,Zefu Lu,Lifeng Gao,Guangyao Zhao,Shuanghe Cao,Qian Chen,Kunpu Zhang,Mengcheng Wang,Meng Wang,Zhaorong Hu,Weilong Guo,Guoqiang Li,Xin Ma,Junming Li,Fangpu Han,Xiangdong Fu,Zhengqiang Ma,Daowen Wang,Xueyong Zhang,Hong-Qing Ling,Guangmin Xia,Yiping Tong,Zhiyong Liu,Zhonghu He,Jizeng Jia,Kang Chong.Wheat genomic study for genetic improvement of traits in China[J].Science China(Life Sciences),2022,65(9):1718-1775. 被引量：18
2王一钊,刘玉秀,孟天琪,魏仕,张正茂.小麦温光发育及相关基因研究进展[J].麦类作物学报,2023,43(1):14-25. 被引量：2
3Ximeng Zhou,Yidi Zhao,Pei Ni,Zhongfu Ni,Qixin Sun,Yuan Zong.CRISPR-mediated acceleration of wheat improvement:advances and perspectives[J].Journal of Genetics and Genomics,2023,50(11):815-834. 被引量：1
4Zihao Wang,Lingfeng Miao,Yongming Chen,Huiru Peng,Zhongfu Ni,Qixin Sun,Weilong Guo.Deciphering the evolution and complexity of wheat germplasm from a genomic perspective[J].Journal of Genetics and Genomics,2023,50(11):846-860. 被引量：3
5Xiongtao Li,Beilu Cao,Dejie Du,Long Song,Lulu Tian,Xiaoming Xie,Zhaoyan Chen,Yanpeng Ding,Xuejiao Cheng,Yingyin Yao,Weilong Guo,Zhenqi Su,Qixin Sun,Zhongfu Ni,Lingling Chai,Jie Liu.TaACTIN7-D regulates plant height and grain shape in bread wheat[J].Journal of Genetics and Genomics,2023,50(11):895-908. 被引量：1
6Hui-Lin Hu,Fan Zhang,Pei Wang,Fu-Hao Lu.Evolutionary genetics of wheat mitochondrial genomes[J].The Crop Journal,2023,11(6):1774-1781.

二级引证文献24

1柴强,胡发龙.我国耕作制度研究进展与展望[J].寒旱农业科学,2022,1(10):19-25. 被引量：3
2温明星,肖进,徐涛,孙丽,王宗宽,王海燕,王秀娥.利用55K芯片进行小麦生育期相关性状的QTL定位及效应分析[J].作物学报,2023,49(12):3188-3203.
3Ximeng Zhou,Yidi Zhao,Pei Ni,Zhongfu Ni,Qixin Sun,Yuan Zong.CRISPR-mediated acceleration of wheat improvement:advances and perspectives[J].Journal of Genetics and Genomics,2023,50(11):815-834. 被引量：1
4Xumei Luo,Yiman Yang,Xuelei Lin,Jun Xiao.Deciphering spike architecture formation towards yield improvement in wheat[J].Journal of Genetics and Genomics,2023,50(11):835-845. 被引量：2
5Zihao Wang,Lingfeng Miao,Yongming Chen,Huiru Peng,Zhongfu Ni,Qixin Sun,Weilong Guo.Deciphering the evolution and complexity of wheat germplasm from a genomic perspective[J].Journal of Genetics and Genomics,2023,50(11):846-860. 被引量：3
6郑建敏,蒲宗君,吕季娟,罗江陶,邓清燕,刘培勋,李式昭.优质抗病小麦新品种川麦618产量特性分析[J].四川农业大学学报,2023,41(6):1032-1037. 被引量：1
7刘洋,刘海燕,吴旭,方舟,王君,赵维萍,蔡华.禾谷镰刀菌侵染条件下小麦酵母双杂交文库的构建及分析[J].滁州学院学报,2023,25(5):1-8.
8车卓,王鹏,田甜,张沛沛,陈涛,刘媛,杨德龙.小麦株高全基因组关联分析与候选基因预测[J].农业生物技术学报,2024,32(2):259-272. 被引量：1
9Haofei Luo,Xiaofei Wang,Changqing You,Xuedan Wu,Duofeng Pan,Zhiyao Lv,Tong Li,Dongmei Zhang,Zhongbao Shen,Xiaodong Zhang,Guodao Liu,Kaixuan He,Qingtong Ye,Yajun Jia,Qinghua Zhao,Xian Deng,Xiaofeng Cao,Xianwei Song,Gai Huang.Telomere-to-telomere genome of the allotetraploid legume Sesbania cannabina reveals transposon-driven subgenome divergence and mechanisms of alkaline stress tolerance[J].Science China(Life Sciences),2024,67(1):149-160. 被引量：2
10Yifei Pei,Liang Leng,Wei Sun,Baocai Liu,Xue Feng,Xiwen Li,Shilin Chen.Whole-genome sequencing in medicinal plants:current progress and prospect[J].Science China(Life Sciences),2024,67(2):258-273. 被引量：1

1Danfeng Wang,Yunlong Pang,Lei Dong,Anfei Li,Lingrang Kong,Shubing Liu.Allelic impacts on pre-harvest sprouting resistance and favorable haplotypes in Ta PHS1 of Chinese wheat accessions[J].The Crop Journal,2020,8(4):515-521. 被引量：1
2Thomas A.Szabo-Pardi,Nilesh M.Agalave,Michael D.Burton.The role of microglia versus peripheral macrophages in maladaptive plasticity after nerve injury[J].Neural Regeneration Research,2021,16(6):1202-1203. 被引量：1
3ZHANG Da-wei,LIU Li-li,ZHOU Ding-gang,LIU Xian-jun,LIU Zhong-song,YAN Ming-li.Genome-wide identification and expression analysis of anthocyanin biosynthetic genes in Brassica juncea[J].Journal of Integrative Agriculture,2020,19(5):1250-1260. 被引量：8
4无.王晓武团队揭示多倍化和结构变异对白菜种内分化的影响[J].中国蔬菜,2021(7):55-55.
5HINDS Zachary,KELLY Brendan Robert,HEQUET Eric Francois.Stability, variation, and application of AFIS fiber length distributions[J].Journal of Cotton Research,2020,3(2):79-89.
6Bo Zhang,Feixiang Qi,Gang Hu,Yikai Yang,Li Zhang,Jianghu Meng,Zhongmin Han,Xiangchun Zhou,Haiyang Liu,Mohammed Ayaad,Yongzhong Xing.BSA-seq-based identification of a major additive plant height QTL with an effect equivalent to that of Semi-dwarf 1 in a large rice F_(2) population[J].The Crop Journal,2021,9(6):1428-1437. 被引量：4
7HUANG Jun,LI Yun-feng,MA Yuan-ying,LI Yan-sheng,JIN Jian,LIAN Teng-xiang.The rhizospheric microbiome becomes more diverse with maize domestication and genetic improvement[J].Journal of Integrative Agriculture,2022,21(4):1188-1202. 被引量：1
8Litang Lu,Hufang Chen,Xiaojing Wang,Yichen Zhao,Xinzhuan Yao,Biao Xiong,Yanli Deng,Degang Zhao.Genome-level diversification of eight ancient tea populations in the Guizhou and Yunnan regions identifies candidate genes for core agronomic traits[J].Horticulture Research,2021,8(1):2559-2568. 被引量：9
9Huanan Han,Ziwen Wu,Ling Zheng,Jingyi Han,Yi Zhang,Jihu Li,Shujuan Zhang,Genying Li,Changle Ma,Pingping Wang.Generation of a high-efficiency adenine base editor with TadA8e for developing wheat dinitroaniline-resistant germplasm[J].The Crop Journal,2022,10(2):368-374.
10Mengxi ZHOU,Diandong WANG,Zhen'an BAI,Ying PENG.Research Progresses on QTLs for Main Grain Shape Genes in Rice[J].Agricultural Biotechnology,2021,10(6):7-9.

Journal of Integrative Plant Biology

2022年第2期

浏览历史

内容加载中请稍等...