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. 1997 Jul 16;16(14):4267–4275. doi: 10.1093/emboj/16.14.4267

Binding of mitochondrial precursor proteins to the cytoplasmic domains of the import receptors Tom70 and Tom20 is determined by cytoplasmic chaperones.

T Komiya 1, S Rospert 1, G Schatz 1, K Mihara 1
PMCID: PMC1170052  PMID: 9250670

Abstract

We have reconstituted the early steps of precursor targeting to mitochondria in a defined and soluble system consisting of the cytosolic domains of the yeast mitochondrial import receptors Tom20 and Tom70, precursor to bovine adrenal adrenodoxin (which has a cleavable targeting signal) and rat liver cytosolic chaperones hsp70 and mitochondrial import-stimulating factor (MSF). The Tom70 domain only bound the precursor in the presence of MSF, yielding a precursor-MSF-Tom70 complex; ATP hydrolysis by MSF released MSF and generated a precursor-Tom70 complex whose formation was inhibited by an excess of a functional presequence peptide, but not by 150 mM NaCl. In the presence of the Tom20 domain, ATP caused transfer of the precursor from the precursor-MSF-Tom70 complex to Tom20. The Tom20 domain alone only bound the precursor in the presence of hsp70; hsp70 itself was not incorporated into the resulting complex. Formation of the Tom20-precursor complex was inhibited by excess presequence peptide or by 150 mM NaCl. Similar results were obtained with the ADP/ATP carrier and porin precursors, which both lack a cleaved targeting signal. Correct targeting of a precursor to mitochondrial import receptors thus requires cytosolic chaperones, irrespective of the presence or absence of a cleavable presequence.

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Selected References

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