DOI: 10.1093/g3journal/jkae084 ISSN: 2160-1836

A reference quality genome assembly for the Jewel scarab Chrysina gloriosa

Terrence Sylvester, Zachary Hoover, Carl E Hjelmen, Michelle M Jonika, Leslie T Blackmon, James M Alfieri, J Spencer Johnston, Sean Chien, Tahmineh Esfandani, Heath Blackmon
  • Genetics (clinical)
  • Genetics
  • Molecular Biology

Abstract

The jewel scarab Chrysina gloriosa is one of the most charismatic beetles in the United States and is found from the mountains of West Texas to the Southeastern Arizona sky islands. This species is highly sought by professional and amateur collectors worldwide due to its gleaming metallic coloration. However, the impact of the large-scale collection of this beetle on its populations is unknown, and there is a limited amount of genetic information available to make informed decisions about its conservation. As a first step, we present the genome of C. gloriosa, which we reconstructed using a single female specimen sampled from our ongoing effort to document population connectivity and the demographic history of this beetle. Using a combination of long-read sequencing and Omni-C data, we reconstructed the C. gloriosa genome at a near-chromosome level. Our genome assembly consisted of 454 scaffolds spanning 642 MB, with the ten largest scaffolds capturing 98% of the genome. The scaffold N50 was 72 MB, and the BUSCO score was 95.5%. This genome assembly will be an essential tool to accelerate understanding C. gloriosa biology and help make informed decisions for the conservation of Chrysina and other species with similar distributions in this region. This genome assembly will further serve as a community resource for comparative genomic analysis.

More from our Archive