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An HMM-based comparative genomic framework for detecting introgression in eukaryotes.

Kevin J Liu1, Jingxuan Dai2, Kathy Truong2

  • 1Department of Computer Science, Rice University, Houston, Texas, United States of America; Department of Ecology and Evolutionary Biology, Rice University, Houston, Texas, United States of America.

Plos Computational Biology
|June 13, 2014
PubMed
Summary
This summary is machine-generated.

We developed PhyloNet-HMM, a new framework to detect introgression, the transfer of genetic material between species. This tool identifies introgressed regions in genomes, revealing evolutionary history and adaptation, like in the mouse Vkorc1 gene.

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Area of Science:

  • Genomics
  • Evolutionary Biology
  • Bioinformatics

Background:

  • Interspecific hybridization leads to introgression, where genetic material transfers between species.
  • Hybridization and introgression play significant roles in eukaryotic evolution and adaptation.
  • Existing methods may not fully capture complex evolutionary histories including incomplete lineage sorting.

Purpose of the Study:

  • To introduce PhyloNet-HMM, a novel comparative genomic framework for detecting introgression.
  • To simultaneously model evolutionary history and genomic dependencies, including incomplete lineage sorting and inter-locus dependence.
  • To provide a powerful tool for systematic analysis of introgression across genomes.

Main Methods:

  • PhyloNet-HMM integrates phylogenetic networks with hidden Markov models (HMMs).
  • The framework accounts for reticulate evolutionary histories and intra-genomic dependencies.
  • It incorporates incomplete lineage sorting and dependence across loci for enhanced accuracy.

Main Results:

  • PhyloNet-HMM successfully detected adaptive introgression of the Vkorc1 gene in the mouse genome.
  • Analysis revealed approximately 9% of sites on mouse chromosome 7 are of introgressive origin, spanning over 300 genes.
  • The model showed high accuracy on simulated datasets and correctly identified no introgression in a negative control dataset.

Conclusions:

  • PhyloNet-HMM offers a robust framework for the systematic detection and analysis of genomic introgression.
  • The tool effectively models complex evolutionary processes including recombination, mutation, and ancestral polymorphism.
  • This advancement facilitates a deeper understanding of species evolution driven by hybridization and introgression.