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Pangenome analyses of 133 wild accessions of the model bryophyte Marchantia polymorpha identify adaptive features and provide insights into the mechanisms of plant adaptation to the terrestrial environment.

Closely related species often have different sex-chromosome systems, but it is not known whether sex-chromosome turnover contributes to the evolution of reproductive isolation between species. Here, a neo-sex chromosome is identified in only one member of a sympatric species pair of stickleback fish in Japan. The newly evolved sex chromosome is found to contain genes that contribute to speciation, suggesting that sex-chromosome turnover might have a greater role in speciation than was previously appreciated.

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.

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.

A new methodology, Rewind, traces vemurafenib-resistant melanoma back to its initial cell state before drug treatment, creating, effectively, a cellular time machine.

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.

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.

The genome sequence of segmental allotetraploid peanut suggests that diversity generated by genetic deletions and homeologous recombination helped to favor the domestication of Arachis hypogaea over its diploid relatives.

Sequencing and genomic diversification of five allopolyploid cotton species provide insights into polyploid genome evolution and epigenetic landscapes for cotton improvement.

An analysis of human chromosome 15 — which is altered in Prader-Willi and Angelman syndromes — reveals that it resembles a hall of mirrors, as it contains a number of sequence duplications throughout its length. The evolutionary events that may have led to the high number of duplications was also reconstructed.

We build a polyploid reference genome for hybrid sugarcane cultivar R570, improving on its current ‘mosaic monoploid’ representation, enabling fine-grain description of genome architecture and the exploration of candidate genes underlying the Bru1 brown rust resistance locus.

Finger millet is an orphan crop key to food security of people living in eastern Africa, India and Nepal. Here, the authors assemble its genome, conduct population genetics analyses to infer the diversification history, and reveal a candidate gene for purple coloration of anthers and stigma.

A cross-scale analysis of paired-stressor effects on biological variables of European freshwater ecosystems shows that in 39% of cases, significant effects were limited to single stressors, with nutrient enrichment being the most important of these in lakes. Additive and interactive effects were similarly frequent (ca. 30% each), this frequency being independent of the spatial scale of analysis for lakes but increasing with scale for rivers.

Thermostable enzymes are used for a range of industrial processes, including biofuel production. Berka et al. report the genome sequences of two thermophilic eukaryotic fungi with enzymes that operate at the elevated temperatures needed to digest biomass and prepare many biochemicals.

How the immune responses induced by SARS-CoV-2 and human coronavirus (hCoV) crosstalk is still unclear. Here the authors profile the humoral responses of prepandemic and SARS-CoV-2-infected donors to find that higher hCoV antibody titers are associated with SARS-CoV-2 negativity, and with reduced hospitalization in SARS-CoV-2 positive patients.

Ocean currents play a crucial role in the distribution of marine coastal species. Here the nuclear and chloroplast genomes of this eelgrass (Zostera marina L.) is used to trace its colonization history from its origin in the Northwest Pacific.

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.

Completion of genome sequences for the diploid Setaria italica reveals features of C₄ photosynthesis that could enable improvement of the polyploid biofuel crop switchgrass (Panicum virgatum). The genetic basis of biotechnologically relevant traits, including drought tolerance, photosynthetic efficiency and flowering control, is also highlighted.

Paspalum vaginatum is a stress tolerant wild relative of maize and sorghum. Here, the authors assemble its genome at pseudomolecule level and reveal the role of trehalose mediated autophagy in increasing maize biomass productivity under nutrient-deficit conditions.

Genome assemblies of 13 domesticated and wild rice relatives reveal salient features of genome evolution across the genus Oryza, especially rapid species diversification and turnover of transposons. This study also releases a complete long-read assembly of IR 8 ‘Miracle Rice’.

Meine, McPherson et al. assess risk and resilience factors in Swiss medical interns predicting skills improvement, burnout, wellbeing and career motivation. Based on quantitative and qualitative analyses, three important factors emerge: work dissatisfaction, social and team factors and degree of practical involvement.

Pecan is an important specialty crop that has experienced extensive interspecific hybridization and nearly-obligate outcrossing. Here, the authors assemble diploid genomes of four outbred genotypes, identify interspecific introgressions through comparative genomics analyses, and map QTLs associated with pest resistance.

Sequencing the nuclear genomes of Guillardia theta and Bigelowiella natans, transitional forms in the endosymbiotic acquisition of photosynthesis by engulfment of certain eukaryotic algae, reveals unprecedented alternative splicing for a single-celled organism (B. natans) and extensive genetic and biochemical mosaicism, shedding light on why nucleomorphs persist in these species but not other algae.

Chromosomal inversions can promote speciation. Here, the authors identify a young inversion that has captured ecologically important genetic variants in a hybrid zone of the plant Boechera stricta, promoting local adaptation and incipient speciation.

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.

Mathieu Blanchette and colleagues report whole-genome sequencing of three Brassicaceae species, Leavenworthia alabamica, Sisymbrium irio and Aethionema arabicum. They include comparative genomic analysis with 6 additional crucifier genomes, identify and characterize over 90,000 conserved noncoding sequences and provide a map of functional noncoding regions in plant genomes.

A reference genome sequence for threespine sticklebacks, and re-sequencing of 20 additional world-wide populations, reveals loci used repeatedly during vertebrate evolution; multiple chromosome inversions contribute to marine-freshwater divergence, and regulatory variants predominate over coding variants in this classic example of adaptive evolution in natural environments.

Sequencing the genomes of two enteropneusts reveals complex genomic organization and developmental innovation in the ancestor of deuterostomes, a group of animals including echinoderms (starfish and their relatives) and chordates (which includes humans).

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.

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.

The genome of the spider mite Tetranychus urticae is sequenced, providing insights into its polyphagous feeding, silk production, hormonal repertoire and reduced Hox cluster.

Resequencing analyses of three species of wild sunflower identify large non-recombining haplotype blocks that correlate with ecologically relevant traits, soil and climate characteristics, and that differentiate species ecotypes.

Stephen Wright, Detlef Weigel and colleagues report the whole-genome sequence of Capsella rubella, a highly selfing crucifer found throughout much of southern and western Europe. They compare mixed-stage flower bud transcriptomes from C. rubella and C. grandiflora, finding a shift in expression of genes associated with flowering phenotypes and providing insights into the transition to selfing.

HIV-1 infection is known to impact the gut mucosa, effecting the microbiota and immune system, but early antiretroviral therapy is linked to partial reversal of this phenomena. Here the authors explore the impact of early commencement of antiretroviral therapy and show this can limit the abnormal responses of intestinal B cells associated with HIV-1 infection.

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.

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.