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A special group of mitochondrial outer membrane proteins spans the membrane once, exposing soluble domains to both sides of the membrane. These proteins are synthesized in the cytosol and then inserted into the membrane by an unknown mechanism. To identify proteins that are involved in the biogenesis of the single-span model protein Mim1, we performed a high-throughput screen in yeast. Two interesting candidates were the cytosolic cochaperone Djp1 and the mitochondrial import receptor Tom70. Our results indeed demonstrate a direct interaction of newly synthesized Mim1 molecules with Tom70. We further observed lower steady-state levels of Mim1 in mitochondria fromdjp1 Δ andtom70 tom71 Δ cells and massive mislocalization of overexpressed GFP-Mim1 to the endoplasmic reticulum in the absence of Djp1. Importantly, these phenotypes were observed specifically for the deletion ofDJP1 and were not detected in mutant cells lacking any of the other cytosolic cochaperones of the Hsp40 family. Furthermore, thedjp1 Δtom70 Δtom71 Δ triple deletion resulted in a severe synthetic sick/lethal growth phenotype. Taking our results together, we identified Tom70 and Djp1 as crucial players in the biogenesis of Mim1. Moreover, the involvement of Djp1 provides a unique case of specificity between a cochaperone and its substrate protein.

The Role of Djp1 in Import of the Mitochondrial Protein Mim1 Demonstrates Specificity between a Cochaperone and Its Substrate Protein