Project description:Dysgonomonas bacterium HGC4 draft genome

Project description:Draft genome assembly of Dysgonomonas isolate BGC7

Project description:Dysgonomonas sp. overview

Project description:Dysgonomonas capnocytophagoides

Project description:Dysgonomonas capnocytophagoides overview

Project description:Dysgonomonas hofstadii overview

Project description:Dysgonomonas macrotermitis overview

Project description:Dysgonomonas mossii overview

Project description:Draft Genome Sequence of Dysgonomonas macrotermitis Strain ,JCM 19375T Isolated from the Gut of a Termite

Project description:The Zika outbreak, spread by the Aedes aegypti mosquito, highlights the need to create high-quality assemblies of large genomes in a rapid and cost-effective fashion. Here, we combine Hi-C data with existing draft assemblies to generate chromosome-length scaffolds. We validate this method by assembling a human genome, de novo, from short reads alone (67X coverage, Sample GSM1551550). We then combine our method with draft sequences to create genome assemblies of the mosquito disease vectors Aedes aegypti and Culex quinquefasciatus, each consisting of three scaffolds corresponding to the three chromosomes in each species. These assemblies indicate that virtually all genomic rearrangements among these species occur within, rather than between, chromosome arms. The genome assembly procedure we describe is fast, inexpensive, accurate, and can be applied to many species.