Ensembl (https://www.ensembl.org) is unique in its flexible infrastructure for access to genomic data and annotation. It has been designed to efficiently deliver annotation at scale for all eukaryotic life, and it also provides deep comprehensive annotation for key species. Genomes representing a greater diversity of species are increasingly being sequenced. In response, we have focussed our recent efforts on expediting the annotation of new assemblies. Here, we report the release of the greatest annual number of newly annotated genomes in the history of Ensembl via our dedicated Ensembl Rapid Release platform (http://rapid.ensembl.org). We have also developed a new method to generate comparative analyses at scale for these assemblies and, for the first time, we have annotated non-vertebrate eukaryotes. Meanwhile, we continually improve, extend and update the annotation for our high-value reference vertebrate genomes and report the details here. We have a range of specific software tools for specific tasks, such as the Ensembl Variant Effect Predictor (VEP) and the newly developed interface for the Variant Recoder. All Ensembl data, software and tools are freely available for download and are accessible programmatically.
Ensembl (https://www.ensembl.org) has produced high-quality genomic resources for vertebrates and model organisms for more than twenty years. During that time, our resources, services and tools have continually evolved in line with both the publicly available genome data and the downstream research and applications that utilise the Ensembl platform. In recent years we have witnessed a dramatic shift in the genomic landscape. There has been a large increase in the number of high-quality reference genomes through global biodiversity initiatives. In parallel, there have been major advances towards pangenome representations of higher species, where many alternative genome assemblies representing different breeds, cultivars, strains and haplotypes are now available. In order to support these efforts and accelerate downstream research, it is our goal at Ensembl to create high-quality annotations, tools and services for species across the tree of life. Here, we report our resources for popular reference genomes, the dramatic growth of our annotations (including haplotypes from the first human pangenome graphs), updates to the Ensembl Variant Effect Predictor (VEP), interactive protein structure predictions from AlphaFold DB, and the beta release of our new website.
Site-specific recombination reactions bring about controlled rearrangements of DNA molecules by cutting the DNA at precise points and rejoining the ends to new partners. The recombinases that catalyse these reactions can be grouped into two families by amino acid sequence homology. We describe our current understanding of how these proteins catalyse recombination, and show how the catalytic mechanisms of the two families differ.
The serine recombinase gamma delta resolvase performs site-specific recombination in an elaborate synaptic complex containing 12 resolvase subunits and two 114-base pair res sites. Here we present an alternative structural model for the synaptic complex. Resolvase subunits in the complex contact their neighbors in equivalent ways, using three principal interactions, one of which is a newly proposed synaptic interaction. Evidence in support of this interaction is provided by mutations at the interface that either enable resolvase to synapse two copies of site I or inhibit synapsis of complete res sites. In our model, the two crossover sites are far apart, separated by the resolvase catalytic domains bound to them. Thus, recombination would require a substantial rearrangement of resolvase subunits or domains.
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