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A chromosome conformation capture ordered sequence of the barley genome

2017; Nature Portfolio; Volume: 544; Issue: 7651 Linguagem: Inglês

10.1038/nature22043

1476-4687

Martin Mascher, Heidrun Gundlach, Axel Himmelbach, Sebastian Beier, Sven Twardziok, Thomas Wicker, Volodymyr Radchuk, Christoph Dockter, Pete E. Hedley, Joanne Russell, Micha Bayer, Luke Ramsay, Hui Liu, Georg Haberer, Xiao‐Qi Zhang, Qisen Zhang, Roberto A. Barrero, Li Lin, Stefan Taudien, Marco Groth, Marius Felder, Alex Hastie, Hana Šimková, Helena Staňková, Jan Vrána, Saki Chan, María Muñoz‐Amatriaín, Rachid Ounit, Steve Wanamaker, Dan Bolser, Christian Colmsee, Thomas Schmutzer, Lala Aliyeva‐Schnorr, Stefano Grasso, Jaakko Tanskanen, Anna Chailyan, Dharanya Sampath, Darren Heavens, Leah Clissold, Sujie Cao, Brett Chapman, Fei Dai, Yong Nam Han, Hua Li, Xuan Li, Chongyun Lin, John K. McCooke, Cong Tan, Penghao Wang, Songbo Wang, Shuya Yin, Gaofeng Zhou, Jesse Poland, M. Bellgard, Ljudmilla Borisjuk, Andreas Houben, Jaroslav Doležel, Sarah Ayling, Stefano Lonardi, Paul Kersey, Peter Langridge, Gary J. Muehlbauer, Matthew D. Clark, Mario Cáccamo, Alan H. Schulman, Klaus Mayer, Matthias Platzer, Timothy J. Close, Uwe Scholz, Mats Hansson, Guoping Zhang, Ilka Braumann, M. Spannagl, Chengdao Li, Robbie Waugh, Nils Stein,

Genomics and Phylogenetic Studies

Cereal grasses of the Triticeae tribe have been the major food source in temperate regions since the dawn of agriculture. Their large genomes are characterized by a high content of repetitive elements and large pericentromeric regions that are virtually devoid of meiotic recombination. Here we present a high-quality reference genome assembly for barley (Hordeum vulgare L.). We use chromosome conformation capture mapping to derive the linear order of sequences across the pericentromeric space and to investigate the spatial organization of chromatin in the nucleus at megabase resolution. The composition of genes and repetitive elements differs between distal and proximal regions. Gene family analyses reveal lineage-specific duplications of genes involved in the transport of nutrients to developing seeds and the mobilization of carbohydrates in grains. We demonstrate the importance of the barley reference sequence for breeding by inspecting the genomic partitioning of sequence variation in modern elite germplasm, highlighting regions vulnerable to genetic erosion. The International Barley Genome Sequencing Consortium reports sequencing and assembly of a reference genome for barley, Hordeum vulgare. Triticeae grasses, which include barley, wheat and rye, are widely cultivated plants with particularly complex genomes and evolutionary histories. Sequencing of the barley genome has been particularly challenging owing to its large size and particular genomic features, such as an abundance of repetitive elements. Nils Stein and colleagues of the International Barley Genome Sequencing Consortium report sequencing and assembly of a reference genome for barley (Hordeumvulgare L). They use a combined approach of hierarchical shotgun sequencing of bacterial artificial chromosomes, genome mapping on nanochannel arrays and chromosome-scale scaffolding with Hi-C sequencing. This brings the first comprehensive, completely ordered assembly of the pericentromeric regions of a Triticeae genome. The authors also sequenced and examined genetic diversity in the exomes of 96 European elite barley lines with a spring or winter growth habit, and highlight the utility of this resource for cereal genomics and breeding programs.