Genomic signatures of barley breeding for environmental adaptation to the new continents
Haifei Hu, Penghao Wang, Tefera Tolera Angessa, Xiao-Qi Zhang, Kenneth J. Chalmers, Gaofeng Zhou,Camilla Beate Hill, Yong Jia, Craig Simpson, John Fuller, Alka Saxena, Hadi Al Shamaileh, Munir Iqbal,Brett Chapman, Parwinder Kaur, Olga Dudchenko, Erez Lieberman Aiden6, Gabriel Keeble-Gagnere,Sharon Westcott, David Leah, Josquin F. Tibbits, Robbie Waugh, Peter Langridge, Rajeev Varshney,Tianhua He* and Chengdao Li*
Plant Biotechnology Journal
Abstract
Barley adaptation in the Australian environmentinvolves selecting and subsequently enriching pre-existing geneticvariants within the European gene pool. Breeding activities havealso introduced non-European haplotypes. Selection for suitablyadapted barley varieties in Australia has led to the fixation ofseveral genes in flowering regulatory pathways. Australianvarieties are dominated by one haplotype in each gene. Identi-fying these genes and haplotypes deepens our understanding ofhow breeding selections have shaped the genome architecture inAustralian barley during its transition from Old World to NewWorld.
Keywords:long-read genome sequencing, crop breeding,environmental adaptation, solar radiation, genomic imprint, structuralvariation.
附件:Genomic signatures of barley breeding for environmental adaptation to the new continents.pdf