Genetic Structure and Evolution of RAC-GTPases in Arabidopsis thaliana

Genetic Structure and Evolution of RAC-GTPases in Arabidopsis thaliana

Per Winge^a, Tore Brembu^a, Ralf Kristensen^a, and Atle M. Bones^a
^a UNIGEN Center for Molecular Biology and Department of Botany, Norwegian University of Science and Technology, N-7491 Trondheim, Norway

Corresponding author: Atle M. Bones, UNIGEN Center for Molecular Biology and Department of Botany, Norwegian University of Science and Technology, N-7491Trondheim, Norway.

Communicating editor: C. S. GASSER

Rho GTPases regulate a number of important cellular functionsin eukaryotes, such as organization of the cytoskeleton, stress-inducedsignal transduction, cell death, cell growth, and differentiation.We have conducted an extensive screening, characterization,and analysis of genes belonging to the Ras superfamily of GTPasesin land plants (embryophyta) and found that the Rho family iscomposed mainly of proteins with homology to RAC-like proteinsin terrestrial plants. Here we present the genomic and cDNAsequences of the RAC gene family from the plant Arabidopsisthaliana. On the basis of amino acid alignments and genomicstructure comparison of the corresponding genes, the 11 encodedAtRAC proteins can be divided into two distinct groups of whichone group apparently has evolved only in vascular plants. Ourphylogenetic analysis suggests that the plant RAC genes underwenta rapid evolution and diversification prior to the emergenceof the embryophyta, creating a group that is distinct from rac/cdc42genes in other eukaryotes. In embryophyta, RAC genes have laterundergone an expansion through numerous large gene duplications.Five of these RAC duplications in Arabidopsis thaliana are reportedhere. We also present an hypothesis suggesting that the characteristicRAC proteins in higher plants have evolved to compensate theloss of RAS proteins.

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