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Nondisjunction Mutants of the Nematode CAENORHABDITIS ELEGANS
Abstract
The frequency of males (5AA; XO) among the self progeny of wild-type Caenorhabditis elegans hermaphrodites (5AA; XX) is about one in 500. Fifteen him (for "high incidence of males") mutations have been identified that increase this frequency by a factor of ten to 150, as a result of increased X-chromosome nondisjunction. The mutations define ten complementation groups, which have been mapped: nine are autosomal, and one sex linked. Most of the mutants are superficially wild type in anatomy and behavior; however, him-4 mutants display gonadal abnormalities, and unc-86 mutants, which have a Him phenotype, exhibit a variety of anatomical and behavioral abnormalities. All the mutants segregate fertile 3X hermaphrodite progeny as well as XO male progeny. Some produce large numbers of inviable zygotes. Mutants in all ten genes produce diplo-X and nullo-X exceptional ova, and in the four strains tested, diplo-X and nullo-X exceptional sperm are produced by 2X "transformed" males. It appears likely that most of the mutants have defects in both gamete lines of the hermaphrodite. XO males of him strains other than him-4 and unc-86 are similar to wild-type males in anatomy and behavior, and all produce equal or almost equal numbers of haplo-X and nullo-X sperm, and no diplo-X sperm. Male fertility is reduced to varying extents in all him mutants. In four of the strains, nondisjunction during oogenesis has been shown to occur at a reductional division, and in three of these strains, abnormalities in recombination have been demonstrated. One mutant also exhibits autosomal nondisjunction, but many of the others probably do not. Therefore, the X chromosome of C. elegans may differ from the autosomes in the mechanisms controlling its meiotic behavior.——3X hermaphrodites are shorter and less fertile than 2X hermaphrodites, and they produce many inviable zygotes among their self progeny: these are probably 4X zygotes. Haplo-X and diplo-X ova are produced in 2:1 ratio by 3X hermaphrodites. him mutations are expressed in these animals, increasing the frequency of self-progeny males and 2X hermaphrodites.
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- Baker BS, Carpenter AT, Esposito MS, Esposito RE, Sandler L. The genetic control of meiosis. Annu Rev Genet. 1976;10:53–134. [Abstract] [Google Scholar]
- Brenner S. The genetics of Caenorhabditis elegans. Genetics. 1974 May;77(1):71–94. [Europe PMC free article] [Abstract] [Google Scholar]
- Byerly L, Cassada RC, Russell RL. The life cycle of the nematode Caenorhabditis elegans. I. Wild-type growth and reproduction. Dev Biol. 1976 Jul 1;51(1):23–33. [Abstract] [Google Scholar]
- Gethmann RC. Meiosis in male Drosophila melanogaster I. Isolation and characterization of meiotic mutants affecting second chromosome disjuction. Genetics. 1974 Dec;78(4):1127–1142. [Europe PMC free article] [Abstract] [Google Scholar]
- Herman RK. Crossover suppressors and balanced recessive lethals in Caenorhabditis elegans. Genetics. 1978 Jan;88(1):49–65. [Europe PMC free article] [Abstract] [Google Scholar]
- Herman RK, Albertson DG, Brenner S. Chromosome rearrangements in Caenorhabditis elegans. Genetics. 1976 May;83(1):91–105. [Europe PMC free article] [Abstract] [Google Scholar]
- Hirsh D, Oppenheim D, Klass M. Development of the reproductive system of Caenorhabditis elegans. Dev Biol. 1976 Mar;49(1):200–219. [Abstract] [Google Scholar]
- NIGON V, BRUN J. L'évolution des structures nucléaires dans l'ovogenèse de Caenorhabditis elegans Maupas 1900. Chromosoma. 1955;7(2-3):129–169. [Abstract] [Google Scholar]
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