The Utility of Amplified Fragment Length Polymorphisms in Phylogenetics: A Comparison of Homology within and between Genomes

doi:10.1080/10635150701427077

Systematic Biology 2007 56(3):477-484; doi:10.1080/10635150701427077

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The Utility of Amplified Fragment Length Polymorphisms in Phylogenetics: A Comparison of Homology within and between Genomes

David M. Althoff¹, Matthew A. Gitzendanner² and Kari A. Segraves¹

¹ Department of Biology, Syracuse University 130 College Place, Syracuse, NY, 13244, USA E-mail: dmalthof{at}syr.edu (D.M.A.)
² Department of Botany, University of Florida P.O. Box 118526, Gainesville, FL, 32611, USA

Edited by Frank Anderson: Associate Editor

Abstract

The amplified fragment length polymorphism (AFLP) techniqueis being increasingly used in phylogenetic studies, especiallyin groups of rapidly radiating taxa. One of the key issues inthe phylogenetic suitability of this technique is whether theDNA fragments generated via the AFLP method are homologous withinand among the taxa being studied. We used a bioinformatics approachto assess homology based on both chromosomal location and sequencesimilarity of AFLP fragments. The AFLP technique was electronicallysimulated on genomes from eight organisms that represented arange of genome sizes. The results demonstrated that withina genome, the number of fragments is positively associated withgenome size, and the degree of homology decreases with increasingnumbers of fragments generated. The average homology of fragmentswas 89% for small genomes (< 400 Mb) but decreased to 59%for large genomes (> 2 Gb). Fragment homology for large genomescan be increased by excluding smaller fragments, although thereis no clear upper limit for the size of fragments to exclude.A second approach is to increase the number of selective nucleotidesin the final selective amplification step. For strains of thesame organism, homology based on chromosome location and sequencesimilarity of fragments was 100%. Fragment homology for moredistantly related taxa, however, decreased with greater timesince divergence. We conclude that AFLP data are best suitedfor examining phylogeographic patterns within species and amongvery recently diverged species.

Keywords: AFLP; bioinformatics; DNA sequence; genome; homology; phylogenetics; species radiations

Received September 27, 2006; Revised November 24, 2006; Accepted March 8, 2007
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