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  1. What is the function of mitochondrial networks? A theoretical assessment of hypotheses and proposal for future research.Hanne Hoitzing, Iain G. Johnston & Nick S. Jones - 2015 - Bioessays 37 (6):687-700.
    Mitochondria can change their shape from discrete isolated organelles to a large continuous reticulum. The cellular advantages underlying these fused networks are still incompletely understood. In this paper, we describe and compare hypotheses regarding the function of mitochondrial networks. We use mathematical and physical tools both to investigate existing hypotheses and to generate new ones, and we suggest experimental and modelling strategies. Among the novel insights we underline from this work are the possibilities that (i) selective mitophagy is not required (...)
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  • Intracellular evolution of mitochondrial DNA (mtDNA) and the tragedy of the cytoplasmic commons.David Haig - 2016 - Bioessays 38 (6):549-555.
    Mitochondria exist in large numbers per cell. Therefore, the strength of natural selection on individual mtDNAs for their contribution to cellular fitness is weak whereas the strength of selection in favor of mtDNAs that increase their own replication without regard for cellular functions is strong. This problem has been solved for most mitochondrial genes by their transfer to the nucleus but a few critical genes remain encoded by mtDNA. Organisms manage the evolution of mtDNA to prevent mutational decay of essential (...)
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  • Mitochondria and the non‐genetic origins of cell‐to‐cell variability: More is different.Raúl Guantes, Juan Díaz-Colunga & Francisco J. Iborra - 2016 - Bioessays 38 (1):64-76.
    Gene expression activity is heterogeneous in a population of isogenic cells. Identifying the molecular basis of this variability will improve our understanding of phenomena like tumor resistance to drugs, virus infection, or cell fate choice. The complexity of the molecular steps and machines involved in transcription and translation could introduce sources of randomness at many levels, but a common constraint to most of these processes is its energy dependence. In eukaryotic cells, most of this energy is provided by mitochondria. A (...)
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