identifier: Shumari.gnm1.V0CS provenance: "The files in this directory originated from http://viggs.dna.affrc.go.jp/download. The viggs repository is considered the primary repository and authoritative; files in this present directory are derived, and may have changes, as noted below. The files here are held as part of the LegumeInfo, PeanutBase, and LegumeFederation projects, and are made available here for the purpose of reproducibility of analyses at these sites (e.g. gene family alignments and phylogenies, genome browsers, etc.) and for further use by researchers, as that research extends other analyses at the LegumeInfo, PeanutBase, and Legume Federation project(s). If you are conducting research on large-scale data sets for this species, please consider retrieving the data from the primary repositories. If you use the data in the present directory, please 1) please cite the data appropriately - generally referring to the original publications for this data; and if you make use of any significant modifications in the files (noted below under Transformations where applicable), then please also cite the respective database project(s) related to this directory." source: "http://viggs.dna.affrc.go.jp/" synopsis: Vigna angularis accession Shumari genome scientific_name: Vigna angularis taxid: 3914 scientific_name_abbrev: vigan genotype: - Shumari chromosome_prefix: Chr supercontig_prefix: scaffold description: Genome assembly for the Vigna angularis, accession Shumari original_file_creation_date: "2016-01-01" local_file_creation_date: "2018-08-01" publication_doi: 10.1038/srep16780 publication_title: "The power of single molecule real-time sequencing technology in the de novo assembly of a eukaryotic genome" contributors: Hiroaki Sakai, Ken Naito, Yu Takahashi, Toshiyuki Sato, Toshiya Yamamoto, Isamu Muto, Takeshi Itoh, Norihiko Tomooka data_curators: Steven Cannon, Andrew Farmer public_access_level: public license: open keywords: adzuki bean citation: "Sakai, H. et al. The power of single molecule real-time sequencing technology in the de novo assembly of a eukaryotic genome. Sci. Rep. 5, 16780 (2015)"