AI Article Synopsis
- The mitochondrial intermembrane space (IMS) is a small but diverse area of the mitochondria, containing 5%-10% of its proteins and having unique protein import mechanisms.
- Unlike other mitochondrial proteins, IMS proteins only need to pass through the outer membrane without using energy from ATP, highlighting their distinct import processes.
- Understanding how proteins enter the IMS is vital, as many are linked to human diseases, and this knowledge can enhance our grasp of various health disorders.
Article Abstract
The mitochondrial intermembrane space (IMS) is the smallest sub-mitochondrial compartment, containing only 5%-10% of mitochondrial proteins. Despite its size, it exhibits the most diverse array of protein import mechanisms. These are underpinned by several different types of targeting signals that are quite distinct from targeting signals for other mitochondrial sub-compartments. In this chapter we outlined our current understanding of some of the main IMS import pathways, the primary oxidative protein folding targeting signal, and explore the remarkable variety of alternative import methods. Unlike proteins destined for the matrix or inner membrane (IM), IMS proteins need only traverse the outer mitochondrial membrane. This process doesn't require energy from ATP hydrolysis in the matrix or the IM electrochemical potential. We also examine unconventional IMS import pathways that remain poorly understood, often guided by ill-defined or unknown targeting peptides. Many IMS proteins are implicated in human diseases, making it crucial to comprehend how they reach their functional location within the IMS. The chapter concludes by discussing current insights into how understanding IMS targeting pathways can contribute to improved understanding of a wide range of human disorders.
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| http://dx.doi.org/10.1016/bs.mie.2024.07.030 | DOI Listing |
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