Characterization of the N-terminal targeting signal binding domain of the mitochondrial outer membrane receptor, Tom20

Abstract

hTom20 is an outer mitochondrial membrane receptor involved in protein translocation. The cytosolic domain (aa30-145) and selected truncated versions of this domain were overexpressed and purified to study the structure-function relationship of this protein. Our studies reveal that the secondary structure of the cytosolic domain is very resistant to unfolding by guanidine-HCl and urea and is stabilized mainly by hydrophobic interactions. However, the tertiary structure of the N-terminal targeting signal binding domain (aa30-90) is more flexible. The first 30 amino acids of the cytosolic domain (aa30-60) are involved in recognizing N-terminal targeting signals and in stabilizing the cytosolic domain on the lipid surface. Moreover, we show that specifically aa30-48 interact with the membrane surface; a construct containing aa48-145 will only bind to the membrane surface in the presence of an N-terminal targeting signal peptide. The C-terminal region of hTom20 (aa141-145) interacts with the N-terminal region of hTom20, helping to stabilize the proper conformation of the N-terminal targeting signal binding domain. Finally, hTom20 interacts with the N-terminal targeting signal of preornithine carbamyl transferase fused to dihydrofolate reductase very weakly (Kd = 8 microM), as would be expected if this interaction was the first in a series orchestrated by the import receptor complex to draw the targeted protein into the mitochondrion.