- THIS ARTICLE
- Full Text
- Full Text (PDF)
- Alert me when this article is cited
- Alert me if a correction is posted
- SERVICES
- Similar articles in this journal
- Similar articles in PubMed
- Alert me to new issues of the journal
- Download to citation manager
- Reprints & Permissions
- CITING ARTICLES
- Citing Articles via Google Scholar
- GOOGLE SCHOLAR
- Articles by Han, Y.
- Articles by Korban, S. S.
- Search for Related Content
- PUBMED
- PubMed Citation
- Articles by Han, Y.
- Articles by Korban, S. S.
Genetics, Vol. 176, 2625-2635, August 2007, Copyright © 2007
doi:10.1534/genetics.107.073650
Multiple-Copy Cluster-Type Organization and Evolution of Genes Encoding O-Methyltransferases in the Apple
Yuepeng Han, Ksenija Gasic and Schuyler S. Korban1
Department of Natural Resources and Environmental Sciences, University of Illinois, Urbana, Illinois 61801
1 Corresponding author: Department of Natural Resources and Environmental Sciences, University of Illinois, Urbana, IL 61801.
E-mail: korban{at}uiuc.edu
Plant O-methyltransferases (OMTs) play important roles in secondary metabolism. Two clusters of genes coding for caffeic acid OMT (COMT) have been identified in the apple genome. Three genes from one cluster and two genes from another cluster were isolated. These five genes encoding COMT, designated Mdomt1–Mdomt5 (GenBank accession nos. DQ886018–DQ886022), were distinguished by a (CT)n microsatellite in the 5'-UTR and two transposon-like sequences present in the promoter region and intron 1, respectively. The transposon-like sequence in intron 1 unambiguously traced the five Mdomt genes in the apple to a common ancestor. The ancestor must have undergone an initial duplication generating two progenitors, and this was followed by further duplication of these progenitors resulting in the two clusters identified in this study. The distal regions of the transposon-like sequences in promoter regions of Mdomt genes are capable of forming palindromic hairpin-like structures. The hairpin formation is likely responsible for nucleotide sequence differences observed in the promoter regions of these genes as it plays a destabilizing role in eukaryotic chromosomes. In addition, the possible mechanism of amplification of Mdomt genes in the apple genome is also discussed.