Rakhi Bajaj scite author profile

Proteins targeted to the mitochondrial matrix are translocated through the outer and the inner mitochondrial membranes by two protein complexes, the translocase of the outer membrane (TOM) and one of the translocases of the inner membrane (TIM23). The protein Tim23, the core component of TIM23, consists of an N-terminal, soluble domain in the intermembrane space (IMS) and a C-terminal domain that forms the import pore across the inner membrane. Before translocation proceeds, precursor proteins are recognized by the N-terminal domain of Tim23, Tim23N (residues 1-96). By using NMR spectroscopy, we show that Tim23N is a monomeric protein belonging to the family of intrinsically disordered proteins. Titrations of Tim23N with two presequences revealed a distinct binding region of Tim23N formed by residues 71-84. In a chargehydropathy plot containing all soluble domains of TOM and TIM23, Tim23N was found to be the only domain with more than 40 residues in the IMS that is predicted to be intrinsically disordered, suggesting that Tim23N might function as hub in the mitochondrial import machinery protein network.

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Molecular Basis of the Dynamic Structure of the TIM23 Complex in the Mitochondrial Intermembrane Space

Bajaj

Jaremko

et al. 2014

Structure

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The presequence translocase TIM23 is a highly dynamic complex in which its subunits can adopt multiple conformations and undergo association-dissociation to facilitate import of proteins into mitochondria. Despite the importance of protein-protein interactions in TIM23, little is known about the molecular details of these processes. Using nuclear magnetic resonance spectroscopy, we characterized the dynamic interaction network of the intermembrane space domains of Tim23, Tim21, Tim50, and Tom22 at single-residue level. We show that Tim23(IMS) contains multiple sites to efficiently interact with the intermembrane space domain of Tim21 and to bind to Tim21, Tim50, and Tom22. In addition, we reveal the atomic details of the dynamic Tim23(IMS)-Tim21(IMS) complex. The combined data support a central role of the intermembrane space domain of Tim23 in the formation and regulation of the presequence translocase.

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Interaction of the Intermembrane Space Domain of Tim23 Protein with Mitochondrial Membranes

Bajaj

Munari

Becker

et al. 2014

Journal of Biological Chemistry

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Tim23 mediates protein translocation into mitochondria. Although inserted into the inner membrane, the dynamic association of its intermembrane space (IMS) domain with the outer membrane promotes protein import. However, little is known about the molecular basis of this interaction. Here, we demonstrate that the IMS domain of Tim23 tightly associates with both inner and outer mitochondrial membrane-like membranes through a hydrophobic anchor at its N terminus. The structure of membrane-bound Tim23(IMS) is highly dynamic, allowing recognition of both the incoming presequence and other translocase components at the translocation contact. Cardiolipin enhances Tim23 membrane attachment, suggesting that cardiolipin can influence preprotein import.

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Residue level characterization of molecular interactions of intermembrane space domains governing the preprotein import into the mitochondrial matrix

Bajaj¹

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Solution Structure of the Ims Domain of the Mitochondrial Import Protein Tim21 From S. Cerevisiae

Bajaj¹,

Jaremko²,

Jaremko³

et al. 2014

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Rakhi Bajaj

The intermembrane space domain of Tim23 is intrinsically disordered with a distinct binding region for presequences

Molecular Basis of the Dynamic Structure of the TIM23 Complex in the Mitochondrial Intermembrane Space

Interaction of the Intermembrane Space Domain of Tim23 Protein with Mitochondrial Membranes

Residue level characterization of molecular interactions of intermembrane space domains governing the preprotein import into the mitochondrial matrix

Solution Structure of the Ims Domain of the Mitochondrial Import Protein Tim21 From S. Cerevisiae

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