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Frogs are an ancient and ecologically diverse group of amphibians that include important model systems. This paper reports genome sequences of multiple frog species, revealing remarkable stability of frog chromosomes and centromeres, along with highly recombinogenic extended subtelomeres.

Phaeocystales are ecologically significant nanoplankton whose evolutionary history and functional diversity remain incompletely characterized. Here, the authors integrate genomic and transcriptomic data to reveal their lineage diversification, metabolic plasticity, and adaptation to polar and temperate regimes.

RNA tomography and in situ hybridization in echinoderms suggest a new ambulacral-anterior model to relate echinoderm pentaradial symmetry to the ancestral bilateral symmetry.

Skate-specific changes in the epigenome and its three-dimensional organization contributed to the evolution of the batoid fin morphology.

Genome sequences of nine species of citrus, including oranges, pummelos and mandarins, reveal pathways of domestication and provide resources for breeding.

The perennial grass Miscanthus is a promising biomass crop. Here, via genomics and transcriptomics, the authors reveal its allotetraploid origin, characterize gene expression associated with rhizome development and nutrient recycling, and describe the hybrid origin of the triploid M. x giganteus.

A chromosome-scale genome assembly for the hagfish Eptatretus atami, combined with a series of phylogenetic analyses, sheds light on ancient polyploidization events that had a key role in the early evolution of vertebrates.

Existing plant pan-genomic studies usually report considerable intraspecific whole gene presence-absence variation. Here, the authors use pan-genomic approach to reveal gradual polyploid genome evolution by analyzing of Brachypodium hybridum and its diploid progenitors.

Deeply conserved syntenic characters unite sponges with bilaterians, cnidarians, and placozoans in a monophyletic clade to the exclusion of the comb jellies (ctenophores)—placing ctenophores as the sister group to all other animals.

The genome of the biofuel crop switchgrass (Panicum virgatum) reveals climate–gene–biomass associations that underlie adaptation in nature and will facilitate improvements of the yield of this crop for bioenergy production.

The two homoeologous subgenomes in the allotetraploid frog Xenopus laevis evolved asymmetrically; one often retained the ancestral state, whereas the other experienced gene loss, deletion, rearrangement and reduced gene expression.

The robust implementation of gauge fields coupled to dynamical matter in large-scale quantum simulators is limited by the ever-present gauge-breaking errors. The authors propose an experimentally suitable scheme combining two-body interactions with weak fields, demonstrating its robustness against gauge breaking errors and its flexibility in the study of various models with Z2 gauge symmetry.

Genomic comparisons with a new amphioxus chromosome-scale genome assembly reveal details of the early evolution of vertebrate genomes.

These authors report and analyse the draft genome sequence of the demosponge Amphimedon queenslandica. Sponges lie on the earliest branching lineage in the animal kingdom and thus have been important in studies of the origins of multicellularity. Comparative genomic analyses presented here provide significant insights into evolutionary origins of genes and pathways related to the hallmarks of metazoan multicellularity and to cancer biology.

Spirodela, or duckweed, is a basal monocotyledonous plant with both pharmaceutical and commercial value. Here, the authors sequence the genome of Spirodela polyrhiza, suggesting its genome has evolved by neotenous reduction and clonal propagation, and provide a platform for future comparative genomic studies in angiosperms.

Soybean is an important crop plant, providing seed protein and oil and fixing atmospheric nitrogen through symbioses with soil-borne microorganisms. Using a whole-genome shotgun approach, its 1.1-gigabase genome is now sequenced and integrated with physical and high-density genetic maps to create a chromosome-scale draft sequence assembly.

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.

The genome sequence for Trichoplax adhaerens is analysed, and it is reported that the organism retains many features of the last common ancestor with cnidarians and bilaterians, estimated to be over 600 million years ago. However, T. adhaerens also contains genes for developmental patterns and cell types which have never been seen in this animal, suggesting that we might still not know the full story.

Drought is a major factor limiting crop productivity. Here, via eQTL analysis and comparative genomics, the authors show compensatory evolution between trans-regulatory loci and transcription factor binding sites that shape the drought response networks in the model C4 grass Panicum hallii.

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.

The International Peach Genome Initiative reports the high quality draft genome sequence of peach (Prunus persica). They also resequenced ten additional P. persica accessions, as well as those of Prunus ferganensis, Prunus kansuensis, Prunus davidiana and Prunus mira.

The Eucalyptus grandis genome has been sequenced, revealing the greatest number of tandem duplications of any plant genome sequenced so far, and the highest diversity of genes for specialized metabolites that act as chemical defence and provide unique pharmaceutical oils; genome sequencing of the sister species E. globulus and a set of inbred E. grandis tree genomes reveals dynamic genome evolution and hotspots of inbreeding depression.

Scott Jackson, Jeremy Schmutz, Phillip McClean and colleagues report the genome sequence of the common bean (Phaseolus vulgaris) and resequenced wild individuals and landraces from Mesoamerican and Andean gene pools, showing that common bean underwent two independent domestications.

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.

Crassulacean acid metabolism (CAM) is a metabolic adaptation of photosynthesis that enhances water use efficiency. Here, via genomic analysis of Kalanchoë, the authors provide evidence for convergent evolution of protein sequence and temporal gene expression underpinning the multiple independent emergences of CAM.

The freshwater cnidarian Hydra is a significant model for studies of axial patterning, stem cell biology and regeneration. Its (A+T)-rich genome has now been sequenced. Comparison of this genome with those of other animals provides insights into the evolution of epithelia, contractile tissues, developmentally regulated transcription factors, pluripotency genes and more.

Comparative analysis of the genomes of one mollusc (Lottia gigantea) and two annelids (Capitella teleta and Helobdella robusta) enable a more complete reconstruction of genomic features of the last common ancestors of protostomes, bilaterians and metazoans; against this conserved background they provide the first glimpse into lineage-specific evolution and diversity of the lophotrochozoans.

Hox clusters in the cnidarians Nematostella vectensis and Hydra magnipapillata have genes that correspond to anterior-group Hox genes in Bilateria, but the remainder of the Hox genes shows signs of an independent origin.

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.