bims-mitran Biomed News
on Mitochondrial Translation
Issue of 2022–08–21
two papers selected by
Andreas Kohler, Stockholm University



  1. Mol Reprod Dev. 2022 Aug 20.
      The mitochondrial genome resides in the mitochondria present in nearly all cell types. The porcine (Sus scrofa) mitochondrial genome is circa 16.7 kb in size and exists in the multimeric format in cells. Individual cell types have different numbers of mitochondrial DNA (mtDNA) copy number based on their requirements for ATP produced by oxidative phosphorylation. The oocyte has the largest number of mtDNA of any cell type. During oogenesis, the oocyte sets mtDNA copy number in order that sufficient copies are available to support subsequent developmental events. It also initiates a program of epigenetic patterning that regulates, for example, DNA methylation levels of the nuclear genome. Once fertilized, the nuclear and mitochondrial genomes establish synchrony to ensure that the embryo and fetus can complete each developmental milestone. However, altering the oocyte's mtDNA copy number by mitochondrial supplementation can affect the programming and gene expression profiles of the developing embryo and, in oocytes deficient of mtDNA, it appears to have a positive impact on the embryo development rates and gene expression profiles. Furthermore, mtDNA haplotypes, which define common maternal origins, appear to affect developmental outcomes and certain reproductive traits. Nevertheless, the manipulation of the mitochondrial content of an oocyte might have a developmental advantage.
    Keywords:  genomic balance; mitochondrial DNA; mitochondrial supplementation; nuclear transfer; oogenesis
    DOI:  https://doi.org/10.1002/mrd.23640
  2. Metabol Open. 2022 Sep;15 100205
      
    Keywords:  Mitochondrial DNA; Mitochondrion; Nucleoid; Phase separation; Transcription
    DOI:  https://doi.org/10.1016/j.metop.2022.100205