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The mechanism of the mixed inheritance of chloroplast genes in Pelargonium

Evidence from gene frequency distributions among the progeny of crosses

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Summary

The distributions are given of gene frequencies among embryos after G X W and W X G plastid crosses within and between eight Pelargonium cultivars and some of their inbred or hybrid derivatives.

Two distinct segregation patterns are recognized. Homozygous type I female parents (Pr1Pr1) have a high frequency of progeny with only maternal alleles, are intermediate for biparental and low for paternal offspring. Heterozygous type II female plants (Pr1Pr2) have an equally high frequency of maternal and paternal offspring and a generally low biparental frequency. These correspond to L-shaped and U-shaped gene frequency distributions respectively in which the only modes are at 0 per cent (maternal embryos) and 100 per cent (paternal embryos), with no mode corresponding to the population mean and no sign of a Gaussian distribution.

The extremely variable plastid gene frequencies are strongly influenced by the maternal nuclear genotype and by the plastid genotype in which the wild-type allele is always more successful than the mutant in strict comparisons.

The relative frequencies of maternal and paternal zygotes, and the mean gene frequency among all the zygotes in a cross, are explicable in terms of the input frequencies of genes from the two parents, their degree of mixing, and by some form of selective replication of plastids. This selection is controlled by nuclear and plastid genotypes which may act in the same direction, to increase the frequency of either the maternal or the paternal alleles, or in opposition. But selection alone is inadequate to explain the shapes of the gene frequency distributions. Instead, a model is proposed in which the segregation or replication of plastids appears to have a strong random element, which results in random drift of gene frequencies within a heteroplasmic zygote or embryo.

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Literature

  • Birky, C.W. Jr. (1976): The inheritance of genes in mitochondria and chloroplasts. BioSci. 26, 26–33

    Google Scholar 

  • Birky, C.W. Jr. (1978): Transmission genetics of mitochondria and chloroplasts. Ann. Rev. Genet. 12, 471–512

    Google Scholar 

  • Birky, C.W. Jr.; Skavaril, R.V. (1976): Maintenance of genetic homogeneity in systems with multiple genomes. Genet. Res., 27, 249–265

    Google Scholar 

  • Gillham, N.W. (1978): Organelle Heredity. New York: Raven Press

    Google Scholar 

  • Hagemann, R. (1979): Genetics and molecular biology of plastids in higher plants. Stadler Symp. 11, 91–116

    Google Scholar 

  • Hagemann, R.; Scholz, M. (1974): Struktur und Funktion der genetischen Information in den Plastiden. 7. Vererbung und Entmischung genetisch unterschiedlicher Plastidensorten bei Pelargonium zonale Ait. Biol. Zbl. 93, 625–648

    Google Scholar 

  • Khera, P.K. (1975): Plastid development in zonal pelargoniums. Ph.D. Thesis, University College of Swansea, Wales

    Google Scholar 

  • Kirk, J.T.O.; Tilney-Bassett, R.A.E. (1978): The Plastids: Their chemistry, structure, growth and inheritance (2nd ed.). Amsterdam: Elsevier/North Holland

    Google Scholar 

  • Lombardo, G.; Gerola, F.M. (1968): Cytoplasmic inheritance and ultrastructure of the male generative cell in higher plants. Planta 82, 105–110

    Google Scholar 

  • Matagne, R.; Hermesse, M.P. (1980): Chloroplast gene inheritance studied by somatic fusion in Chlamydomonas reinhardtii. Curr. Genet. 1, 127–132

    Google Scholar 

  • Meyer, B.; Stubbs, W. (1974): Das Zahlenverhältnisse von mütterlichen und väterlichen Plastiden in den Zygoten von Oenothera erythrosepala Borbas (syn. Oe. lamarckiana). Ber. dt. bot. Ges. 87, 29–38

    Google Scholar 

  • Michaelis, P. (1955): Über Gesetzmässigkeiten der Plasmon-Umkombination und über eine Methode zur Trennung einer Plastiden-, Chondriosomen- resp. Sphaerosomen-, (Mikrosomen)- und einer Zytoplasmavererbung. Cytologia 20, 315–338

    Google Scholar 

  • Sager, R. (1972): Cytoplasmic Genes and Organelles. New York: Acad. Press

    Google Scholar 

  • Schötz, F. (1974): Untersuchungen über die Plastidenkonkurrenz bei Oenothera. IV. Der Einfluss des Genoms auf die Durchsetzungsfähigkeit der Plastiden. Biol. Zbl. 93, 41–64

    Google Scholar 

  • Schötz, F. (1975): Untersuchungen über die Plastidenkonkurrenz bei Oenothera. V. Die Stabilität der Konkurrenzfähigkeit bei Verwendung verschiedenartiger mutierter Testplastiden. Biol. Zbl. 94, 17–26

    Google Scholar 

  • Sears, B.B. (1979): Disappearance of the heteroplasmic state for chloroplast markers in zygospores of Chlamydomonas reinhardtii. Plasmid 3, 18–34

    Google Scholar 

  • Sears, B.B. (1980): Elimination of plastids during spermatogenesis and fertilization in the plant kingdom. Plasmid 4, 233–255

    Google Scholar 

  • Thrailkill, K.M.; Birky, C.W.Jr.; Lückemann, G.; Wolf, K. (1980): Intracellular population genetics: Evidence for random drift of mitochondrial allele frequencies in Saccharomyces cerevisiae and Schizosaccharomyces pombe. Genetics, 237–262

  • Tilney-Bassett, R.A.E. (1963): Genetics and plastid physiology in Pelargonium. Heredity 18, 485–504

    Google Scholar 

  • Tilney-Bassett, R.A.E. (1970a): Genetics and plastid physiology in Pelargonium. III. Effect of cultivar and plastids on fertilization and embryo survival. Heredity 25, 89–103

    Google Scholar 

  • Tilney-Bassett, R.A.E. (1970b): The control of plastid inheritance in Pelargonium. Genet. Res. 16, 49–61

    Google Scholar 

  • Tilney-Bassett, R.A.E. (1973): The control of plastid inheritance in Pelargonium II. Heredity 30, 1–13

    Google Scholar 

  • Tilney-Bassett, R.A.E. (1976): The control of plastid inheritance in Pelargonium. IV. Heredity 37, 95–107

    Google Scholar 

  • Tilney-Bassett, R.A.E.; Abdel-Wahab, O.A.L. (1979): Maternal effects and plastid inheritance. In: Maternal Effects in Development (eds.: Newth, D.R.; Balls, M.), British Society for Developmental Biology Symposium 4, 29–45. London: Cambridge Univ. Press

    Google Scholar 

  • Van Winkle-Swift, K.P. (1978): Uniparental inheritance is promoted by delayed division of the zygote in Chlamydomonas. Nature 275, 749–751

    Google Scholar 

  • Wolf, K.; Del Giudice, L.; Kaudewitz, F. (1979): Promotion of uniparental inheritance of mitochondrial drug resistance by delayed division of yeast zygotes. Molec. Gen. Genet. 176, 301–302

    Google Scholar 

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Authors and Affiliations

  1. Department of Genetics, University College of Swansea, Singleton Park, Swansea, UK

    R. A. E. Tilney-Bassett

  2. Department of Genetics, The Ohio State University, Columbus, Ohio, USA

    C. W. Birky Jr.

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  1. R. A. E. Tilney-Bassett
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  2. C. W. Birky Jr.
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Communicated by R. Hagemann

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Tilney-Bassett, R.A.E., Birky, C.W. The mechanism of the mixed inheritance of chloroplast genes in Pelargonium . Theoret. Appl. Genetics 60, 43–53 (1981). https://doi.org/10.1007/BF00275177

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  • DOI: https://doi.org/10.1007/BF00275177

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