Extranuclear inheritance

Abstract: In nearly all eukaryotes, at least some individuals inherit mitochondrial and chloroplast genes from only one parent. There is no single mechanism of uniparental inheritance: organelle gene inheritance is blocked by a variety of mechanisms and at different stages of reproduction in different species. Frequent changes in the pattern of organelle gene inheritance during evolution suggest that it is subject to varying selective pressures. Organelle genes often fail to recombine even when inherited biparentally; consequently, their inheritance is asexual. Sexual reproduction is apparently less important for genes in organelles than for nuclear genes, probably because there are fewer of them. As a result organelle sex can be lost because of selection for special reproductive features such as oogamy or because uniparental inheritance reduces the spread of cytoplasmic parasites and selfish organelle DNA.

Abstract: Following the acquisition of chloroplasts and mitochondria by eukaryotic cells during endosymbiotic evolution, most of the genes in these organelles were either lost or transferred to the nucleus. Encoding organelle-destined proteins in the nucleus allows for host control of the organelle. In return, organelles send signals to the nucleus to coordinate nuclear and organellar activities. In photosynthetic eukaryotes, additional interactions exist between mitochondria and chloroplasts. Here we review recent advances in elucidating the intracellular signalling pathways that coordinate gene expression between organelles and the nucleus, with a focus on photosynthetic plants.

Abstract: Cytoplasmic organelles are inherited in a nonMendelian fashion in all eukaryotic organisms investigated. Among the seed plants, plastics can be inherited strictly from the female parent, strictly from the male parent, or biparentally. Most flowering plants studied to date exhibit maternal plastic inheritance, but approximately one-third of the genera investigated display biparental plastic inheritance to some degree. Among the gymnosperms, paternal plastic inheritance is the rule in the conifers, whereas the other groups appear to have maternal plastic inheritance, although they have been less well studied. Mitochondrial inheritance is predominantly maternal in the seed plants, except for a few coniferous families where it is predominantly paternal. The advent of recombinant DNA technology has allowed restriction fragment length polymorphisms to be used as molecular markers, and has stimulated much research in organelle inheritance and its application to studies of population genetics and phylogenetic biology. This report emphasizes the various mechanisms by which organelles are, or are not, transmitted among the seed plants in order that researchers directly or indirectly involved with organelle inheritance may better understand the potential and the limitations of their investigations. A summary and discussion of the possible evolutionary significance of the various patterns of cytoplasmic inheritance among the seed plants are also included

Abstract: ▪ Abstract The inheritance of mitochondrial and chloroplast genes differs from that of nuclear genes in showing vegetative segregation, uniparental inheritance, intracellular selection, and reduced recombination. Vegetative segregation and some cases of uniparental inheritance are due to stochastic replication and partitioning of organelle genomes. The rate and pattern of vegetative segregation depend partly on the numbers of genomes and of organelles per cell, but more importantly on the extent to which genomes are shared between organelles, their distribution in the cell, the variance in number of replications per molecule, and the variance in numerical and genotypic partitioning of organelles and genomes. Most of these parameters are unknown for most organisms, but a simple binomial probability model using the effective number of genomes is a useful substitute. Studies using new cytological, molecular, and genetic methods are shedding some light on the processes involved in segregation, and also on the...