Supporting Data for: The genome of the pygmy right whale illuminates the evolution of rorquals

Background Baleen whales are a clade of gigantic and highly specialized marine mammals. Their genomes have been used to investigate their complex evolutionary history and to decipher the molecular mechanisms that allowed them to reach these dimensions. However, many unanswered questions remain, espe...

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Bibliographic Details
Main Authors: Wolf, Magnus, Zapf, Konstantin, Gupta, Deepak Kumar, Hiller, Michael, Árnason, Ulfur, Janke, Axel
Format: Software
Language:unknown
Published: 2023
Subjects:
Pygmy right whale
Caperea marginata
whole genome sequencing
Phylogenomics
rorquals
positive selection
Cancer resistance
Peto's paradox
genome assembly
de novo genome
baleen whale
whale
Mysticeti
Introgression
Cell biology
Developmental biology
Plant science
General Agricultural and Biological Sciences
General Biochemistry
Genetics and Molecular Biology
Physiology
Ecology
Evolution
Behavior and Systematics
structural biology
Biotechnology
baleen whales
Online Access:https://zenodo.org/record/7740016
https://doi.org/10.5281/zenodo.7740016
Description
Summary:Background Baleen whales are a clade of gigantic and highly specialized marine mammals. Their genomes have been used to investigate their complex evolutionary history and to decipher the molecular mechanisms that allowed them to reach these dimensions. However, many unanswered questions remain, especially about the early radiation of rorquals and how cancer resistance interplays with their huge number of cells. The pygmy right whale is the smallest and most elusive among the baleen whales. It reaches only a fraction of the body length compared to its relatives and it is the only living member of an otherwise extinct family. This placement makes the pygmy right whale genome an interesting target to update the complex phylogenetic past of baleen whales, because it splits up an otherwise long branch that leads to the radiation of rorquals. Apart from that, genomic data of this species might help to investigate cancer resistance in large whales, since these mechanisms are not as important for the pygmy right whale as in other giant rorquals and right whales. Results Here, we present a first de novo genome of the species and test its potential in phylogenomics and cancer research. To do so, we constructed a multi-species coalescent tree from fragments of a whole-genome alignment and quantified the amount of introgression in the early evolution of rorquals. Furthermore, a genome wide comparison of selection rates between large and small bodied baleen whales revealed a small set of conserved candidate genes with potential connections to cancer resistance. Conclusions Our results suggest that the evolution of rorquals is best described as a hard polytomy with a rapid radiation and high levels of introgression. The lack of shared positive selected genes between different large-bodied whale species supports a previously proposed convergent evolution of gigantism and hence cancer resistance in baleen whales. General Usage: Many files containing sequence data are zipped using gzip. Use "gunzip" to reverse this. Also, ...

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