Distribution of genome rearrangement distance under double cut and join

Jacqueline Christy; Joshua McHugh; Manda Riehl; Noah Williams

doi:10.2140/involve.2014.7.491

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Home > Journals > Involve > Volume 7 > Issue 4 > Article

2014 Distribution of genome rearrangement distance under double cut and join

Jacqueline Christy, Joshua McHugh, Manda Riehl, Noah Williams

Involve 7(4): 491-507 (2014). DOI: 10.2140/involve.2014.7.491

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Abstract

Using the double-cut-and-join (DCJ) model for genome rearrangement we use combinatorial techniques to analyze the distribution of genomes under DCJ distance. We present an exponential generating function for the number of genomes that are maximally distant from a given genome and provide a formula for the number of genomes that are any given distance from an arbitrary starting genome.

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Jacqueline Christy. Joshua McHugh. Manda Riehl. Noah Williams. "Distribution of genome rearrangement distance under double cut and join." Involve 7 (4) 491 - 507, 2014. https://doi.org/10.2140/involve.2014.7.491

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Received: 14 December 2012; Revised: 30 March 2013; Accepted: 1 April 2013; Published: 2014

First available in Project Euclid: 20 December 2017

zbMATH: 06325197

MathSciNet: MR3239756

Digital Object Identifier: 10.2140/involve.2014.7.491

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Primary: 05E05 , 68R15

Keywords: double cut and join , generating function , genome rearrangement

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Vol.7 • No. 4 • 2014

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Jacqueline Christy, Joshua McHugh, Manda Riehl, Noah Williams "Distribution of genome rearrangement distance under double cut and join," Involve: A Journal of Mathematics, Involve 7(4), 491-507, (2014)

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