Abstract
BackgroundChromosome evolution is an important driver of speciation and species evolution. Previous studies have detected chromosome rearrangement events among different Carnivora species using chromosome painting strategies. However, few of these studies have focused on chromosome evolution at a nucleotide resolution due to the limited availability of chromosome-level Carnivora genomes. Although the de novo genome assembly of the giant panda is available, current short read-based assemblies are limited to moderately sized scaffolds, making the study of chromosome evolution difficult.ResultsHere, we present a chromosome-level giant panda draft genome with a total size of 2.29 Gb. Based on the giant panda genome and published chromosome-level dog and cat genomes, we conduct six large-scale pairwise synteny alignments and identify evolutionary breakpoint regions. Interestingly, gene functional enrichment analysis shows that for all of the three Carnivora genomes, some genes located in evolutionary breakpoint regions are significantly enriched in pathways or terms related to sensory perception of smell. In addition, we find that the sweet receptor gene TAS1R2, which has been proven to be a pseudogene in the cat genome, is located in an evolutionary breakpoint region of the giant panda, suggesting that interchromosomal rearrangement may play a role in the cat TAS1R2 pseudogenization.ConclusionsWe show that the combined strategies employed in this study can be used to generate efficient chromosome-level genome assemblies. Moreover, our comparative genomics analyses provide novel insights into Carnivora chromosome evolution, linking chromosome evolution to functional gene evolution.
Highlights
Chromosome evolution is an important driver of speciation and species evolution
Two limb development genes (DYNC2H1 and PCNT), which have undergone adaptive convergence, may be important candidate genes for pseudothumb development in both pandas [17]. These two genomic assemblies can be used as reference genomes for population genomics and comparative genomics studies of giant pandas [17, 18], both of them were assembled based on short reads and may be fragmented and incomplete, making it difficult to study chromosome evolution at a nucleotide resolution
Genome assembly Based on the previously published paired-end reads generated with Illumina sequencing platforms [17], the giant panda genome was assembled into contigs
Summary
Chromosome evolution is an important driver of speciation and species evolution. Previous studies have detected chromosome rearrangement events among different Carnivora species using chromosome painting strategies. Fan et al Genome Biology (2019) 20:267 comparisons among carnivore, omnivore, and herbivore genomes showed that carnivores are under strong selective pressure related to diet compared to the other two dietary groups [12] Few of these studies have focused on chromosome evolution at a nucleotide resolution due to the limited availability of high-quality chromosome-level genome assemblies for Carnivora species. Two limb development genes (DYNC2H1 and PCNT), which have undergone adaptive convergence, may be important candidate genes for pseudothumb development in both pandas [17] These two genomic assemblies can be used as reference genomes for population genomics and comparative genomics studies of giant pandas [17, 18], both of them were assembled based on short reads and may be fragmented and incomplete, making it difficult to study chromosome evolution at a nucleotide resolution
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