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Open Access Research article

Exploring the evolution of protein function in Archaea

Alexander Goncearenco12 and Igor N Berezovsky1*

Author affiliations

1 Computational Biology Unit, Uni Research, University of Bergen, N-5008, Bergen, Norway

2 Department of Informatics, University of Bergen, N-5008, Bergen, Norway

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Citation and License

BMC Evolutionary Biology 2012, 12:75  doi:10.1186/1471-2148-12-75

Published: 30 May 2012

Abstract

Background

Despite recent progress in studies of the evolution of protein function, the questions what were the first functional protein domains and what were their basic building blocks remain unresolved. Previously, we introduced the concept of elementary functional loops (EFLs), which are the functional units of enzymes that provide elementary reactions in biochemical transformations. They are presumably descendants of primordial catalytic peptides.

Results

We analyzed distant evolutionary connections between protein functions in Archaea based on the EFLs comprising them. We show examples of the involvement of EFLs in new functional domains, as well as reutilization of EFLs and functional domains in building multidomain structures and protein complexes.

Conclusions

Our analysis of the archaeal superkingdom yields the dominating mechanisms in different periods of protein evolution, which resulted in several levels of the organization of biochemical function. First, functional domains emerged as combinations of prebiotic peptides with the very basic functions, such as nucleotide/phosphate and metal cofactor binding. Second, domain recombination brought to the evolutionary scene the multidomain proteins and complexes. Later, reutilization and de novo design of functional domains and elementary functional loops complemented evolution of protein function.

Keywords:
Protein function; Evolution; Archaea; Elementary functional loops; Functional domains/folds