Circular genome rearrangement models: applying representation theory to   evolutionary distance calculations

Venta Terauds; Jeremy Sumner

arXiv:1712.00858·q-bio.PE·December 5, 2017

Circular genome rearrangement models: applying representation theory to evolutionary distance calculations

Venta Terauds, Jeremy Sumner

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TL;DR

This paper introduces a new representation-theoretic approach to calculating evolutionary distances in circular genome rearrangement models, demonstrating its application through initial calculations on genomes with up to 11 regions.

Contribution

It presents a novel mathematical method using representation theory to improve the calculation of evolutionary distances in circular genomes.

Findings

01

Symmetry properties of circular genome models analyzed.

02

A new computational method implemented for distance calculations.

03

Initial results obtained for genomes with up to 11 regions.

Abstract

We investigate the symmetry of circular genome rearrangement models, discuss the implementation of a new representation-theoretic method of calculating evolutionary distances between circular genomes, and give the results of some initial calculations for genomes with up to 11 regions.

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Taxonomy

TopicsGenome Rearrangement Algorithms · Enzyme Production and Characterization · Phytase and its Applications