A Selective Barrier to Horizontal Gene Transfer in the T4-Type Bacteriophages That Has Preserved a Core Genome with the Viral Replication and Structural Genes

doi:10.1093/molbev/msl036

MBE Advance Access originally published online on June 16, 2006
Molecular Biology and Evolution 2006 23(9):1688-1696; doi:10.1093/molbev/msl036

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© The Author 2006. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org

Research Article

A Selective Barrier to Horizontal Gene Transfer in the T4-Type Bacteriophages That Has Preserved a Core Genome with the Viral Replication and Structural Genes

Jonathan Filée^*, Eric Bapteste, Edward Susko and H. M. Krisch^*

^* Laboratoire de Microbiologie et Génétique Moléculaire, CNRS UMR-5100, Toulouse, France; Canadian Institute for Advanced Research and Genome Atlantic, Department of Biochemistry and Molecular Biology, Dalhousie University, Halifax, Nova Scotia, Canada; and Genome Atlantic, Department of Mathematics and Statistics, Dalhousie University, Halifax, Nova Scotia, Canada

E-mail: jonathan.filee{at}ibcg.biotoul.fr.

Genomic analysis of bacteriophages frequently reveals a mosaicstructure made up from modules that come from disparate sources.This fact has led to the general acceptance of the notion thatrampant and promiscuous lateral gene transfer (LGT) plays acritical role in phage evolution. However, recent sequencingof a series of the T4-type phages has revealed that these largeand complex genomes all share 2 substantial syntenous blocksof genes encoding the replication and virion structural genes.To analyze the pattern of inheritance of this core T4 genome,we compared the complete genome sequences of 16 T4-type phages.We identified a set of 24 genes present in all these T4-typegenomes. Somewhat surprisingly, only one of these genes, thatencodes for ribonucleotide reductase (NrdA), displayed evidenceof LGT with the bacterial host. We test the congruence of theinheritance of the other 23 markers using heat map analysesand comparison of a reference topology with the 23 individualgene phylogenies. The vast majority of these core genes sharea common evolutionary history. In contrast, analyses of allthe noncore genes present in the same 16 genomes, located inthe hyperplastic regions of the genome, show considerable evidenceof frequent LGT. The similar evolution of the core replicationand virion structural genes in the T4-type phage genomes suggeststhat, unlike the situation in many other phage groups, suchportions of T4-type genome have been inherited as a block, withoutsignificant LGT, from a distant common ancestor. The preservationof the synteny of the core T4 genome could result from severalfactors acting in synergy, such as the constraints imposed bythe sophisticated regulation of the transcription. Moreover,numerous and complex protein–protein interactions duringvirion morphogenesis could also impose a supplementary barrieragainst LGT. Finally, there may be some real evolutionary advantageto maintaining large regions of conserved sequence. Such segmentscould be a sort of genetic glue that maintains the genetic cohesionof the T4-type phages via recombination within the most conservedsequences. This could mediate the swapping of nonconserved sequencesthat they flank.

Key Words: T4 phages • phylogeny • lateral gene transfer • synteny • congruence

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