Switch to: References

Add citations

You must login to add citations.
  1. Tuning a ménage à trois: Co-evolution and co-adaptation of nuclear and organellar genomes in plants.Stephan Greiner & Ralph Bock - 2013 - Bioessays 35 (4):354-365.
    Plastids and mitochondria arose through endosymbiotic acquisition of formerly free-living bacteria. During more than a billion years of subsequent concerted evolution, the three genomes of plant cells have undergone dramatic structural changes to optimize the expression of the compartmentalized genetic material and to fine-tune the communication between the nucleus and the organelles. The chimeric composition of many multiprotein complexes in plastids and mitochondria (one part of the subunits being nuclear encoded and another one being encoded in the organellar genome) provides (...)
    Download  
     
    Export citation  
     
    Bookmark   4 citations  
  • Trans‐splicing of organelle introns – a detour to continuous RNAs.Stephanie Glanz & Ulrich Kück - 2009 - Bioessays 31 (9):921-934.
    In eukaryotes, RNA trans‐splicing is an important RNA‐processing form for the end‐to‐end ligation of primary transcripts that are derived from separately transcribed exons. So far, three different categories of RNA trans‐splicing have been found in organisms as diverse as algae to man. Here, we review one of these categories: the trans‐splicing of discontinuous group II introns, which occurs in chloroplasts and mitochondria of lower eukaryotes and plants. Trans‐spliced exons can be predicted from DNA sequences derived from a large number of (...)
    Download  
     
    Export citation  
     
    Bookmark  
  • Why are most organelle genomes transmitted maternally?Stephan Greiner, Johanna Sobanski & Ralph Bock - 2015 - Bioessays 37 (1):80-94.
    Why the DNA‐containing organelles, chloroplasts, and mitochondria, are inherited maternally is a long standing and unsolved question. However, recent years have seen a paradigm shift, in that the absoluteness of uniparental inheritance is increasingly questioned. Here, we review the field and propose a unifying model for organelle inheritance. We argue that the predominance of the maternal mode is a result of higher mutational load in the paternal gamete. Uniparental inheritance evolved from relaxed organelle inheritance patterns because it avoids the spread (...)
    Download  
     
    Export citation  
     
    Bookmark   3 citations  
  • Early steps in plastid evolution: current ideas and controversies.Andrzej Bodył, Paweł Mackiewicz & John W. Stiller - 2009 - Bioessays 31 (11):1219-1232.
    Some nuclear‐encoded proteins are imported into higher plant plastids via the endomembrane (EM) system. Compared with multi‐protein Toc and Tic translocons required for most plastid protein import, the relatively uncomplicated nature of EM trafficking led to suggestions that it was the original transport mechanism for nuclear‐encoded endosymbiont proteins, and critical for the early stages of plastid evolution. Its apparent simplicity disappears, however, when EM transport is considered in light of selective constraints likely encountered during the conversion of stable endosymbionts into (...)
    Download  
     
    Export citation  
     
    Bookmark