Abstract
Among the flowering plants, hermaphrodite sexuality (plants bearing bisexual flowers with both stamens and pistil) represents the most common mode of reproduction (near 72% of species). Approximately one-tenth of all angiosperms are strictly dioecious (male plants bearing only staminate flowers and female plants only pistilate flowers) or monoecious (separate male flowers and female flowers on the same plant). Intermediate forms of sexual dimorphism, including gynodioecy and androdioecy, represent 7% of plant species, whereas 10% of plant species possess both unisexual and bisexual flowers (Dellaporta and Calderon-Urrea 1993). Most of the plants used as model have hermaphrodite flowers, which makes the cloning of genes expressed specifically during either male or female reproductive organ development difficult.
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References
Barbacar N, Hinnisdaels S, Farbos I, Monéger F, Lardon A, Delichère C, Mouras A, Negrutiu I (1997) Isolation of early genes expressed in reproductive organs of the dioecious white campion (Silene latifolia) by subtraction cloning using an asexual mutant. Plant J 12: 805–817
Dellaporta S L, Calderon-Urrea A (1993) Sex determination in flowering plants. Plant Cell 5: 1241–1251
Desfeux C, Lejeune B (1996) Systematics of euromediterranean Silene (Caryophyllaceae): evidence from a phylogenetic analysis using ITS sequences. C R Acad Sci Paris Life Sci 319: 351–358
Donnison I S, Siroky J, Vyskot B, Saedler H, Grant S R (1996) Isolation of Y chromosome-specific sequences from Silene latifolia and mapping of male sex-determining genes using representational difference analysis. Genetics 144: 1893–1901
Farbos I, Oliveira M, Negrutiu I, Mouras A (1997) Sex organ determination and differentiation in the dioecious plant Melandrium album (Silene latifolia): a. cytological and histological analysis. Sex Plant Reprod 10: 155–167
Grant S, Hunkirchen B, Saedler H (1994) Developmental differences between male and female flowers in the dioecious plant Silene latifolia. Plant J 6: 471–480
Hinnisdaels S, Lardon A, Barbacar N, Negrutiu I (1997) A floral third whorl-specific marker gene in the dioecious species white campion is differentially expressed in mutants defective in stamen development. Plant Mol Biol 35: 1009–1014
Lardon A, Georgiev S, Aghmir A, Le Merrer G, and Negrutiu I (1998) Compex control of carpel number is revealed by Y chromosome deletions in dioecious white campion. Genet (submitted)
Shen JB, Hsu F C (1992) Brassica anther-specific genes: characterization and in situ localization of expression. Mol Gen Genet 234: 379–389
Van Nigtevecht G (1966) Genetic studies in dioecious Melandrium. I. Sex-linked and sex-influenced inheritance in Melandrium album and Melandrium dioicum. Genetica 37: 281–306
Westergaard M (1946) Aberrant Y chromosomes and sex expression in Melandrium album. Hereditas 32: 419–443
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© 1999 Springer-Verlag Berlin Heidelberg
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Lardon, A., Georgiev, S., Barbacar, N., Monéger, F., Delichère, C., Negrutiu, I. (1999). Sexual dimorphism and stamen development in the dioecious white campion. In: Clément, C., Pacini, E., Audran, JC. (eds) Anther and Pollen. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-59985-9_3
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DOI: https://doi.org/10.1007/978-3-642-59985-9_3
Publisher Name: Springer, Berlin, Heidelberg
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