MassIVE MSV000087050

Partial Public PXD024750

The ancient Salicoid genome duplication event: A platform for reconstruction of de novo gene evolution in Populus trichocarp

Description

Orphan genes are characteristic genomic features that have no detectable homology to genes in any other species and represent an important attribute of genome evolution as sources of novel genetic functions. Here, we identified 445 genes specific to Populus trichocarpa. Of these, we performed deeper reconstruction of 13 orphan genes to provide evidence of de novo gene evolution. Populus and its sister genera Salix are particularly well suited for the study of orphan gene evolution because of the Salicoid whole-genome duplication event (WGD) which resulted in highly syntenic sister chromosomal segments across the Salicaceae. We leveraged this genomic feature to reconstruct de novo gene evolution from inter-genera, inter-species, and intra-genomic perspectives by comparing the syntenic regions within the P. trichocarpa reference, then P. deltoides, and finally Salix purpurea. Furthermore, we demonstrated that 86.5% of the putative orphan genes had evidence of transcription. Additionally, we also utilized the Populus genome-wide association mapping panel (GWAS), a collection of 1,084 undomesticated P. trichocarpa genotypes to further determine putative regulatory networks of orphan genes using expression quantitative trait loci (eQTL) mapping. Collectively, we provide novel insights into the processes of de novo gene evolution in the context of a long-lived eukaryote. [doi:10.25345/C5KJ7Z] [dataset license: CC0 1.0 Universal (CC0 1.0)]

Keywords: plant, proteome, orphan genes

Contact

Principal Investigators:
(in alphabetical order)
Wellington Muchero, Oak Ridge National Laboratory, USA
Submitting User: pabraham_ornl
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