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The Role of Gene Duplication in the Divergence of Enzyme Function: A Comparative Approach

Alejandro Álvarez-Lugo, Arturo Becerra

2021Frontiers in Genetics16 citationsDOIOpen Access PDF

Abstract

Gene duplication is a crucial process involved in the appearance of new genes and functions. It is thought to have played a major role in the growth of enzyme families and the expansion of metabolism at the biosphere's dawn and in recent times. Here, we analyzed paralogous enzyme content within each of the seven enzymatic classes for a representative sample of prokaryotes by a comparative approach. We found a high ratio of paralogs for three enzymatic classes: oxidoreductases, isomerases, and translocases, and within each of them, most of the paralogs belong to only a few subclasses. Our results suggest an intricate scenario for the evolution of prokaryotic enzymes, involving different fates for duplicated enzymes fixed in the genome, where around 20-40% of prokaryotic enzymes have paralogs. Intracellular organisms have a lesser ratio of duplicated enzymes, whereas free-living enzymes show the highest ratios. We also found that phylogenetically close phyla and some unrelated but with the same lifestyle share similar genomic and biochemical traits, which ultimately support the idea that gene duplication is associated with environmental adaptation.

Topics & Concepts

Gene duplicationBiologyGeneFunctional divergenceEnzymeAdaptation (eye)GenomeGeneticsGene familyPhylogeneticsFunction (biology)PhylumEvolutionary biologyBiochemistryNeuroscienceGenomics and Phylogenetic StudiesPhotosynthetic Processes and MechanismsEnzyme Structure and Function