The Evolutionary Implications of knox-I Gene Duplications in Conifers: Correlated Evidence from Phylogeny, Gene Mapping, and Analysis of Functional Divergence

doi:10.1093/molbev/msh235

MBE Advance Access originally published online on August 18, 2004
Molecular Biology and Evolution 2004 21(12):2232-2245; doi:10.1093/molbev/msh235

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Molecular Biology and Evolution vol. 21 no. 12 © Society for Molecular Biology and Evolution 2004; all rights reserved.

Research Article

The Evolutionary Implications of knox-I Gene Duplications in Conifers: Correlated Evidence from Phylogeny, Gene Mapping, and Analysis of Functional Divergence

Carine Guillet-Claude^*, Nathalie Isabel^*^,, Betty Pelgas^* and Jean Bousquet^*

^* Arborea and Chaire de Recherche du Canada en Génomique Forestière et Environnementale, Centre de Recherche en Biologie Forestière, Université Laval, Sainte-Foy, Québec Canada; and Natural Resources Canada, Canadian Forest Service, Laurentian Forestry Centre, Sainte-Foy, Québec Canada

E-mail: bousquet{at}rsvs.ulaval.ca.

Class I knox genes code for transcription factors that playan essential role in plant growth and development as centralregulators of meristem cell identity. Based on the analysisof new cDNA sequences from various tissues and genomic DNA sequences,we identified a highly diversified group of class I knox genesin conifers. Phylogenetic analyses of complete amino acid sequencesfrom various seed plants indicated that all conifer sequencesformed a monophyletic group. Within conifers, four subgroupshere named genes KN1 to KN4 were well delineated, each regroupingpine and spruce sequences. KN4 was sister group to KN3, whichwas sister group to KN1 and KN2. Genetic mapping on the genomesof two divergent Picea species indicated that KN1 and KN2 arelocated close to each other on the same linkage group, whereasKN3 and KN4 mapped on different linkage groups, correlatingthe more ancient divergence of these two genes. The proportionof synonymous and nonsynonymous substitutions suggested intensepurifying selection for the four genes. However, rates of substitutionper year indicated an evolution in two steps: faster rates werenoted after gene duplications, followed subsequently by lowerrates. Positive directional selection was detected for mostof the internal branches harboring an accelerated rate of evolution.In addition, many sites with highly significant amino acid rateshift were identified between these branches. However, the tightlylinked KN1 and KN2 did not diverge as much from each other.The implications of the correlation between phylogenetic, structural,and functional information are discussed in relation to thediversification of the knox-I gene family in conifers.

Key Words: conifer knox-I genes • evolutionary rates • functional divergence • gene duplication • genome mapping • phylogenetic analysis

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