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Evolutionary Divergence of Arabidopsis thaliana Classical Peroxidases

E. V. Kupriyanova*, P. O. Mamoshina, and T. A. Ezhova

Lomonosov Moscow State University, Faculty of Biology, 119991 Moscow, Russia; E-mail: ekupriyanova@gmail.com

* To whom correspondence should be addressed.

Received July 6, 2015
Polymorphisms of 62 peroxidase genes derived from Arabidopsis thaliana were investigated to evaluate evolutionary dynamics and divergence of peroxidase proteins. By comparing divergence of duplicated genes AtPrx53-AtPrx54 and AtPrx36-AtPrx72 and their products, nucleotide and amino acid substitutions were identified that were apparently targets of positive selection. These substitutions were detected among paralogs of 461 ecotypes from Arabidopsis thaliana. Some of these substitutions are conservative and matched paralogous peroxidases in other Brassicaceae species. These results suggest that after duplication, peroxidase genes evolved under the pressure of positive selection, and amino acid substitutions identified during our study provided divergence of properties and physiological functions in peroxidases. Our predictions regarding functional significance for amino acid residues identified in variable sites of peroxidases may allow further experimental assessment of evolution of peroxidases after gene duplication.
KEY WORDS: peroxidase, Arabidopsis thaliana, gene and protein polymorphism, gene duplication, evolution, divergence of protein properties, bioinformatic analysis

DOI: 10.1134/S0006297915100181