Literature DB >> 26059473

Splitting up the powerhouse: structural insights into the mechanism of mitochondrial fission.

Viviane Richter1, Abeer P Singh1, Marc Kvansakul1, Michael T Ryan2, Laura D Osellame3.   

Abstract

Mitochondria are dynamic organelles whose shape is regulated by the opposing processes of fission and fusion, operating in conjunction with organelle distribution along the cytoskeleton. The importance of fission and fusion homeostasis has been highlighted by a number of disease states linked to mutations in proteins involved in regulating mitochondrial morphology, in addition to changes in mitochondrial dynamics in Alzheimer's, Huntington's and Parkinson's diseases. While a number of mitochondrial morphology proteins have been identified, how they co-ordinate to assemble the fission apparatus is not clear. In addition, while the master mediator of mitochondrial fission, dynamin-related protein 1, is conserved throughout evolution, the adaptor proteins involved in its mitochondrial recruitment are not. This review focuses on our current understanding of mitochondrial fission and the proteins that regulate this process in cell homeostasis, with a particular focus on the recent mechanistic insights based on protein structures.

Entities:  

Keywords:  Adaptors; Dynamin-related protein 1; Endoplasmic reticulum; Fission; Lipids; Mitochondria; Outer mitochondrial membrane

Mesh:

Substances:

Year:  2015        PMID: 26059473     DOI: 10.1007/s00018-015-1950-y

Source DB:  PubMed          Journal:  Cell Mol Life Sci        ISSN: 1420-682X            Impact factor:   9.261


  139 in total

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Authors:  Huyen T Bui; Janet M Shaw
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6.  Oxidative damage to mitochondrial DNA is increased in Alzheimer's disease.

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  23 in total

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10.  Actin filaments target the oligomeric maturation of the dynamin GTPase Drp1 to mitochondrial fission sites.

Authors:  Wei-ke Ji; Anna L Hatch; Ronald A Merrill; Stefan Strack; Henry N Higgs
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