High-quality reannotation of the king scallop genome reveals no ‘gene-rich’ feature and evolution of toxin resistance

https://doi.org/10.1016/j.csbj.2021.08.038Get rights and content
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Highlights

  • Generation of a new chromosome-level reference genome for the king scallop.

  • Disapproval of previous claim of ‘gene-rich’ feature by improved genome annotation.

  • Neurotoxin tolerance potentially contributed by the expansion of GluF genes.

Abstract

The king scallop, Pecten maximus is a well-known, commercially important scallop species and is featured with remarkable tolerance to potent phytotoxins such as domoic acid. A high-quality genome can shed light on its biology and innovative evolution of toxin resistance. A reference genome has recently been published for P. maximus, however, it is suspicious that over 67,700 genes are annotated in this genome, which is unexpectedly larger than its close relatives of pectinids. Herein, we provide an improved high-quality chromosome-level reference genome assembly and annotation for the king scallop P. maximus. A final set of 26,995 genes is annotated after carefully checking and curation of the predicted gene models, which significantly improves the accuracy of gene structure information. The large number of gene duplicates in the previous genome is mainly distorted by the fragmented annotation. Through integrated genomic, evolutionary and transcriptomic analyses, we reveal that the Phi subfamily of ionotropic glutamate receptors (iGluRs) are well preserved in molluscs, and P. maximus experienced the rapid expansion of the Phi class of iGluR (GluF) gene family. The GluF genes exhibit ubiquitously high expression and altered sequence characteristics for ligand selectivity, which may contribute to the remarkable tolerance to neurotoxins in P. maximus. Taken together, our study disapproves the previous claim of the 'gene-rich' genome of this species and provides a high-quality genome assembly for further understanding of its biology and evolution of toxin resistance.

Keywords

King scallop
Genome sequencing
Gene annotation
Neurotoxin tolerance

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These authors contributed equally to this work.