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Conserved regions of budding yeast Tim22 have a role in structural organization of the carrier translocase.

Abhishek KumarSrujan Kumar MattaPatrick D'Silva
Published in: Journal of cell science (2020)
Mitochondrial biogenesis requires efficient sorting of various proteins into different mitochondrial sub-compartments, mediated by dedicated protein machinery present in the outer and inner membrane. Among them, the TIM22 complex enables the integration of complex membrane proteins with internal targeting signals into the inner membrane. Although the Tim22 protein forms the core of the complex, the dynamic recruitment of subunits to the channel is still enigmatic. In this study, we highlight that the intermembrane space (IMS) and transmembrane 4 (TM4) regions of Tim22 are critically required for interactions with the membrane-embedded subunits, including Tim54, Tim18, and Sdh3, and thereby maintain the functional architecture of the TIM22 translocase. Furthermore, we find that the TM1 and TM2 regions of Tim22 are important for association with Tim18, whereas TM3 is exclusively required for the interaction with Sdh3. Moreover, impairment of TIM22 complex assembly influences its translocase activity, the mitochondrial network, and the viability of cells lacking mitochondrial DNA. Overall, our findings provide compelling evidence highlighting the significance of conserved regions of Tim22 that are important for the maintenance of the TIM22 complex and mitochondrial integrity.
Keyphrases
  • mitochondrial dna
  • oxidative stress
  • transcription factor
  • gene expression
  • cell death