AtAzg1 and AtAzg2 comprise a novel family of purine transporters in Arabidopsis

Tyler A. Mansfield, Neil P. Schultes, George S. Mourad, Tyler A. Mansfield, Neil P. Schultes, George S. Mourad

Index: FEBS Lett. 583(2) , 481-6, (2009)

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Abstract

In plants, nucleobase biochemistry is highly compartmented relying upon a well-regulated and selective membrane transport system. In Arabidopsis two proteins, AtAzg1 and AtAzg2, show substantial amino acid sequence similarity to the adenine–guanine–hypoxanthine transporter AzgA of Aspergillus nidulans. Analysis of single and double mutant lines harboring T-DNA insertion alleles AtAzg1-1 and AtAzg2-1 reveal a marked resistance to growth in the presence of 8-azaadenine and 8-azaguanine but not to other toxic nucleobase analogues. Conversely, yeast strains expressing AtAzg1 and AtAzg2 gain heightened sensitivity to growth on 8-azaadenine and 8-azaguanine. Radio-labeled purine uptake experiments in yeast and in planta confirm the function of AtAzg1 and AtAzg2 as plant adenine–guanine transporters.