典型文献
Genomic Variations in the Tea Leafhopper Reveal the Basis of Its Adaptive Evolution
文献摘要:
Tea green leafhopper(TGL),Empoasca onukii,is of biological and economic interest.Despite numerous studies,the mechanisms underlying its adaptation and evolution remain enig-matic.Here,we use previously untapped genome and population genetics approaches to examine how the pest adapted to different environmental variables and thus has expanded geographically.We complete a chromosome-level assembly and annotation of the E.onukii genome,showing nota-ble expansions of gene families associated with adaptation to chemoreception and detoxification.Genomic signals indicating balancing selection highlight metabolic pathways involved in adaptation to a wide range of tea varieties grown across ecologically diverse regions.Patterns of genetic vari-ations among 54 E.onukii samples unveil the population structure and evolutionary history across different tea-growing regions in China.Our results demonstrate that the genomic changes in key pathways,including those linked to metabolism,circadian rhythms,and immune system functions,may underlie the successful spread and adaptation of E.onukii.This work highlights the genetic and molecular basis underlying the evolutionary success of a species with broad economic impacts,and provides insights into insect adaptation to host plants,which will ultimately facilitate more sustain-able pest management.
文献关键词:
中图分类号:
作者姓名:
Qian Zhao;Longqing Shi;Weiyi He;Jinyu Li;Shijun You;Shuai Chen;Jing Lin;Yibin Wang;Liwen Zhang;Guang Yang;Liette Vasseur;Minsheng You
作者机构:
State Key Laboratory of Ecological Pest Control for Fujian and Taiwan Crops,Institute of Applied Ecology,Fujian Agriculture and Forestry University,Fuzhou 350002,China;Institute of Rice,Fujian Academy of Agricultural Sciences,Fuzhou 350018,China;Tea Research Institute,Fujian Academy of Agricultural Sciences,Fuzhou 350001,China;Center for Genomics and Biotechnology,Fujian Agriculture and Forestry University,Fuzhou 350002,China;Department of Biological Sciences,Brock University,St.Catharines,ON L2S 3A1,Canada
文献出处:
引用格式:
[1]Qian Zhao;Longqing Shi;Weiyi He;Jinyu Li;Shijun You;Shuai Chen;Jing Lin;Yibin Wang;Liwen Zhang;Guang Yang;Liette Vasseur;Minsheng You-.Genomic Variations in the Tea Leafhopper Reveal the Basis of Its Adaptive Evolution)[J].基因组蛋白质组与生物信息学报(英文版),2022(06):1092-1105
A类:
Leafhopper,leafhopper,TGL,enig,nota
B类:
Genomic,Variations,Tea,Reveal,Basis,Its,Adaptive,Evolution,green,Empoasca,onukii,biological,economic,interest,Despite,numerous,studies,mechanisms,underlying,its,adaptation,remain,matic,Here,we,use,previously,untapped,genome,population,genetics,approaches,examine,pest,adapted,different,environmental,variables,thus,has,expanded,geographically,We,complete,chromosome,level,assembly,annotation,showing,expansions,families,associated,chemoreception,detoxification,signals,indicating,balancing,selection,metabolic,pathways,involved,wide,range,tea,varieties,grown,across,ecologically,diverse,regions,Patterns,among,samples,unveil,structure,evolutionary,history,growing,China,Our,results,demonstrate,that,genomic,changes,key,including,those,linked,metabolism,circadian,rhythms,immune,system,functions,may,underlie,successful,spread,This,work,highlights,molecular,basis,species,broad,impacts,provides,insights,into,insect,host,plants,which,will,ultimately,facilitate,sustain,management
AB值:
0.659701
相似文献
机标中图分类号,由域田数据科技根据网络公开资料自动分析生成,仅供学习研究参考。
