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A pangenome of oat, assembled from 33 wild and domesticated oat lines, sheds light on the evolution and genetic diversity of this cereal crop and will aid genomics-assisted breeding to improve productivity and sustainability.

Available wheat genomes are annotated by projecting Chinese Spring gene models across the new assemblies. Here, the authors generate de novo gene annotations for the 9 wheat genomes, identify core and dispensable transcriptome, and reveal conservation and divergence of gene expression balance across homoeologous subgenomes.

An integrated high-resolution genetic, physical and shotgun sequence assembly of the barley genome, one of the earliest domesticated and most important crops, is described; it will provide a platform for genome-assisted research and future crop improvement.

The International Barley Genome Sequencing Consortium reports sequencing and assembly of a reference genome for barley, Hordeum vulgare.

A pangenome analysis of 76 wild and domesticated barley accessions in combination with short-read sequence data of 1,315 barley genotypes indicates that allelic diversity at structurally complex loci may have helped crop plants to adapt to agricultural ecosystems.

Lablab is a legume native to Africa and cultivated throughout the tropics for food and forage; however, as an orphan crop, limited genomic resources hampers its genetic improvement. Here, an African-led South-North plant genome collaboration produces an improved genome assembly and population genomic resource to accelerate its breeding.

Assembly of the hexaploid oat genome and its diploid and tetraploid relatives clarifies the evolutionary history of oat and allows mapping of genes for agronomic traits.

Chromosome-scale sequence assemblies of 20 diverse varieties of barley are used to construct a first-generation pan-genome, revealing previously hidden genetic variation that can be used by studies aimed at crop improvement

Comparison of multiple genome assemblies from wheat reveals extensive diversity that results from the complex breeding history of wheat and provides a basis for further potential improvements to this important food crop.

Genome assembly of durum wheat cultivar Svevo enables genome-wide genetic diversity analyses highlighting modifications imposed by thousands of years of empirical selection and breeding.

Using a high-quality chromosome-scale assembly of the faba bean genome, the genetic basis of seed size and hilum colour is explored.

A chromosome-scale genome assembly of rye inbred line ‘Lo7’ provides insights into its incomplete genetic isolation from wild relatives, mechanisms of genome structural evolution and the yield benefits of rye–wheat introgressions.

De novo genome assemblies of four European flint maize lines and comparison with two US Corn Belt genomes provide insights into the dynamics of intraspecies variation in repeat and gene content in maize genomes.

Sorghum is an African grass that is grown for food, animal feed and fuel. The current paper presents an initial analysis of the ∼730 megabase genome of Sorghum bicolor. Genome analysis and its comparison with maize and rice shed light on grass genome evolution and also provide insights into the evolution of C₄ photosynthesis, as well as protein coding genes and miRNAs that might contribute to sorghum's drought tolerance.

Parasitic lifestyles leave unique genomic footprints. Here, the authors describe the genome sequence of a parasitic plant, Cuscuta campestris, and find that gene losses and host gene acquisitions reflect the independence from photosynthesis and the ability to retain and express chunks of foreign genomic DNA.

The Gossypium genus is used to investigate emergent consequences of polyploidy in cotton species; comparative genomic analyses reveal a complex evolutionary history including interactions among subgenomes that result in genetic novelty in elite cottons and provide insight into the evolution of spinnable fibres.

Sequencing of Medicago truncatula, a model organism of legume biology, shows that genome duplications had a role in the evolution of endosymbiotic nitrogen fixation.

Detlef Weigel and colleagues report the genome sequence of Arabidopsis lyrata. In comparison with the much smaller genome of A. thaliana, from which A. lyrata diverged about 10 million years ago, they find that the reduction in genome size is attributed to a large number of deletions across the genome.

The genome of the wild grass Brachypodium distachyon (Brachypodium), a member of the Pooideae subfamily, is sequenced. The Pooideae are one of three subfamilies of grasses that provide the bulk of human nutrition and may become major sources of renewable energy. Availability of the genome sequence should help establish Brachypodium as a model for developing new energy and food crops.

This paper reports the genome sequence of domesticated tomato, a major crop plant, and a draft sequence for its closest wild relative; comparative genomics reveal very little divergence between the two genomes but some important differences with the potato genome, another important food crop in the genus Solanum.