| Literature DB >> 29451365 |
Hui-Su Kim1, Bo-Young Lee1, Jeonghoon Han1, Chang-Bum Jeong1, Dae-Sik Hwang1, Min-Chul Lee1, Hye-Min Kang1, Duck-Hyun Kim1, Hee-Jin Kim2, Spiros Papakostas3, Steven A J Declerck4, Ik-Young Choi5, Atsushi Hagiwara2,6, Heum Gi Park7, Jae-Seong Lee1.
Abstract
Monogononta is the most speciose class of rotifers, with more than 2,000 species. The monogonont genus Brachionus is widely distributed at a global scale, and a few of its species are commonly used as ecological and evolutionary models to address questions related to aquatic ecology, cryptic speciation, evolutionary ecology, the evolution of sex and ecotoxicology. With the importance of Brachionus species in many areas of research, it is remarkable that the genome has not been characterized. This study aims to address this lacuna by presenting, for the first time, the whole-genome assembly of the freshwater species Brachionus calyciflorus. The total length of the assembled genome was 129.6 Mb, with 1,041 scaffolds. The N50 value was 786.6 kb, and the GC content was 24%. A total of 16,114 genes were annotated with repeat sequences, accounting for 21% of the assembled genome. This assembled genome may form a basis for future studies addressing key questions on the evolution of monogonont rotifers. It will also provide the necessary molecular resources to mechanistically investigate ecophysiological and ecotoxicological responses.Entities:
Keywords: evolution; genome; molecular ecotoxicology; monogonont rotifer
Mesh:
Year: 2018 PMID: 29451365 DOI: 10.1111/1755-0998.12768
Source DB: PubMed Journal: Mol Ecol Resour ISSN: 1755-098X Impact factor: 7.090