Chromosome-level clam genome helps elucidate the molecular basis of adaptation to a buried lifestyle

Wei, Min 1 ; Ge, Hongxin1 ; Shao, Changwei2 ; Yan, Xiwu3 ; Nie, Hongtao3 ; Duan, Haibao1 ; Liao, Xiaoting1 ; Zhang, Min1 ; Chen, Yihua1 ; Zhang, Dongdong1 ; Dong, Zhiguo 1

Published May 05, 2020 on Dryad. https://doi.org/10.5061/dryad.44j0zpcb5

Data files

May 05, 2020 version files 26.11 MB

Cyclina_sinensis_genome.cds.fa.gz

12.62 MB
Cyclina_sinensis_genome.gff3.gz

5.34 MB
Cyclina_sinensis_genome.pep.fa.gz

8.16 MB

Abstract

With gene prediction and functional annotation, a final nonredundant consensus gene set for C. sinensis was obtained, and 27,564 protein-coding genes were predicted in the final assembled genome. Finally, 27,344 protein-coding genes were annotated, accounting for 99.2% of all the predicted genes.

Funding

Agriculture Research System of China: CARS–49

Priority Academic Program Development of Jiangsu Higher Education Institutions

Jiangsu Provincial Department of Education: No. 18KJA240001

Jiangsu Fisheries Science and Technology: Y2018–27

National Natural Science Foundation of China: BK20191008

Six Talent Summit Program of Jiangsu Province: NY-113

Natural Science Foundation of the Jiangsu Higher Education Institutions of China *: No. 18KJA240001

Jiangsu Fisheries Science and Technology: Y2018–27

Six Talent Summit Program of Jiangsu Province: NY-113

Chromosome-level clam genome helps elucidate the molecular basis of adaptation to a buried lifestyle

Data files

Abstract

Methods

Works referencing this dataset