A Eukaryote-Wide Perspective on the Diversity and Evolution of the ARF GTPase Protein Family

Author:

Vargová Romana1,Wideman Jeremy G2ORCID,Derelle Romain3,Klimeš Vladimír1,Kahn Richard A4,Dacks Joel B56,Eliáš Marek1

Affiliation:

1. Department of Biology and Ecology, Faculty of Science, University of Ostrava, Czech Republic

2. Biodesign Center for Mechanisms of Evolution, School of Life Sciences, Arizona State University, Tempe, Arizona, USA

3. Station d’Ecologie Théorique et Expérimentale, UMR CNRS 5321, Moulis, France

4. Department of Biochemistry, Emory University School of Medicine, Atlanta, Georgia, USA

5. Division of Infectious Disease, Department of Medicine, University of Alberta, Edmonton, Alberta, Canada

6. Centre for Life’s Origin and Evolution, Department of Genetics, Evolution and Environment, University College of London, United Kingdom

Abstract

Abstract The evolution of eukaryotic cellular complexity is interwoven with the extensive diversification of many protein families. One key family is the ARF GTPases that act in eukaryote-specific processes, including membrane traffic, tubulin assembly, actin dynamics, and cilia-related functions. Unfortunately, our understanding of the evolution of this family is limited. Sampling an extensive set of available genome and transcriptome sequences, we have assembled a data set of over 2,000 manually curated ARF family genes from 114 eukaryotic species, including many deeply diverged protist lineages, and carried out comprehensive molecular phylogenetic analyses. These reconstructed as many as 16 ARF family members present in the last eukaryotic common ancestor, nearly doubling the previously inferred ancient system complexity. Evidence for the wide occurrence and ancestral origin of Arf6, Arl13, and Arl16 is presented for the first time. Moreover, Arl17, Arl18, and SarB, newly described here, are absent from well-studied model organisms and as a result their function(s) remain unknown. Analyses of our data set revealed a previously unsuspected diversity of membrane association modes and domain architectures within the ARF family. We detail the step-wise expansion of the ARF family in the metazoan lineage, including discovery of several new animal-specific family members. Delving back to its earliest evolution in eukaryotes, the resolved relationship observed between the ARF family paralogs sets boundaries for scenarios of vesicle coat origins during eukaryogenesis. Altogether, our work fundamentally broadens the understanding of the diversity and evolution of a protein family underpinning the structural and functional complexity of the eukaryote cells.

Publisher

Oxford University Press (OUP)

Subject

Genetics,Ecology, Evolution, Behavior and Systematics

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