S. S. Renner, The relative and absolute frequencies of angiosperm sexual systems: dioecy, monoecy, gynodioecy, and an updated online database, Am J Bot, vol.101, pp.1588-1596, 2014.

P. K. Diggle, D. Stilio, V. S. Gschwend, A. R. Golenberg, E. M. Moore et al., Multiple developmental processes underlie sex differentiation in angiosperms, Trends Genet, vol.27, pp.368-376, 2011.

C. Ainsworth, J. Parker, and V. Buchanan-wollaston, Sex determination in plants, Curr Top Dev Biol, vol.38, pp.167-223, 1998.

B. Kubicki, Investigations on sex determination in cucumber (Cucumis sativus L.). V. Genes controlling intensity of femaleness, Genetica Polonica, vol.10, pp.69-85, 1969.

B. Kubicki, Investigations on sex determination in cucumber (Cucumis sativus L.). VII. Andromonoecism and hermaphroditism, Genetica Polonica, vol.10, pp.101-120, 1969.

C. F. Poole and P. C. Grimball, Inheritance of new sex forms in Cucumis melo L, Journal of Heredity, vol.30, pp.21-25, 1939.

S. Malepszy and K. Niemirowicz-szczytt, Sex determination in cucumber (Cucumis sativus) as a model system for molecular biology, Plant Science, vol.80, pp.39-47, 1991.

S. L. Bai, Y. B. Peng, J. X. Cui, H. T. Gu, L. Y. Xu et al., Developmental analyses reveal early arrests of the spore-bearing parts of reproductive organs in unisexual flowers of cucumber, Cucumis sativus L.). Planta, vol.220, pp.230-240, 2004.

A. Boualem, M. Fergany, R. Fernandez, C. Troadec, A. Martin et al., A conserved mutation in an ethylene biosynthesis enzyme leads to andromonoecy in melons, Science, vol.321, pp.836-838, 2008.
URL : https://hal.archives-ouvertes.fr/hal-02669243

A. Boualem, C. Troadec, I. Kovalski, M. A. Sari, R. Perl-treves et al., A conserved ethylene biosynthesis enzyme leads to andromonoecy in two cucumis species, PLoS One, vol.4, p.6144, 2009.
URL : https://hal.archives-ouvertes.fr/hal-02663178

A. Boualem, C. Troadec, C. Camps, A. Lemhemdi, H. Morin et al., A cucurbit androecy gene reveals how unisexual flowers develop and dioecy emerges, Science, vol.350, pp.688-691, 2015.
URL : https://hal.archives-ouvertes.fr/hal-02636940

A. Martin, C. Troadec, A. Boualem, M. Rajab, R. Fernandez et al., A transposon-induced epigenetic change leads to sex determination in melon, Nature, vol.461, pp.1135-1138, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01203855

S. C. Barrett, The evolution of plant sexual diversity, Nat Rev Genet, vol.3, pp.274-284, 2002.

D. Lewis, The evolution of sex in flowering plants, Biological Review of the Cambridge Philosophical Society, vol.17, pp.46-67, 1942.

J. T. Rosa, The inheritance of flowers types in Cucumis and Citrullus, Hilgardia, vol.3, pp.233-250, 1928.

J. Prothro, H. Abdel-haleem, E. Bachlava, V. White, S. Knapp et al., Quantitative trait loci associated with sex expression in an inter-subspecific watermelon population, J Amer Soc Hort Sci, vol.138, pp.125-130, 2013.

H. Schaefer, C. Heibl, and S. S. Renner, Gourds afloat: a dated phylogeny reveals an Asian origin of the gourd family (Cucurbitaceae) and numerous oversea dispersal events, Proc Biol Sci, vol.276, pp.843-851, 2009.

K. Nikovics, T. Blein, A. Peaucelle, T. Ishida, H. Morin et al., The balance between the MIR164A and CUC2 genes controls leaf margin serration in Arabidopsis, Plant Cell, vol.18, pp.2929-2945, 2006.
URL : https://hal.archives-ouvertes.fr/hal-02379724

M. F. White, J. Vasquez, S. F. Yang, and J. F. Kirsch, Expression of apple 1-aminocyclopropane-1-carboxylate synthase in Escherichia coli: kinetic characterization of wild-type and active-site mutant forms, Proc Natl Acad Sci U S A, vol.91, pp.12428-12432, 1994.

S. G. Ralph, J. W. Hudgins, S. Jancsik, V. R. Franceschi, and J. Bohlmann, Aminocyclopropane carboxylic acid synthase is a regulated step in ethylene-dependent induced conifer defense. Full-length cDNA cloning of a multigene family, differential constitutive, and wound-and insect-induced expression, and cellular and subcellular localization in spruce and Douglas fir, Plant Physiol, vol.143, pp.410-424, 2007.

Q. Huai, Y. Xia, Y. Chen, B. Callahan, N. Li et al., Crystal structures of 1-aminocyclopropane-1-carboxylate (ACC) synthase in complex with aminoethoxyvinylglycine and pyridoxal-5'-phosphate provide new insight into catalytic mechanisms, J Biol Chem, vol.276, pp.38210-38216, 2001.

S. Manzano, C. Martinez, J. M. Garcia, Z. Megias, and M. Jamilena, Involvement of ethylene in sex expression and female flower development in watermelon (Citrullus lanatus), Plant Physiol Biochem, vol.85, pp.96-104, 2014.

J. S. Miller and P. K. Diggle, Diversification of andromonoecy in Solanum section Lasiocarpa (Solanaceae): the roles of phenotypic plasticity and architecture, American Journal of Botany, vol.90, pp.707-715, 2003.

E. Yampolsky and H. Yampolsky, Distribution of sex forms in phanerogamic flora, Bibliographia Genetica, vol.3, pp.1-62, 1922.

C. F. Poole and P. C. Grimball, Interaction of sex, shape and weight genes in watermelon, J Agric Res, vol.71, pp.533-552, 1944.

G. J. Ji, J. Zhang, G. Y. Gong, J. T. Shi, H. Y. Zhang et al., Inheritance of sex forms in watermelon (Citrullus lanatus), Scientia Horticulturae, vol.193, pp.367-373, 2015.

C. Martinez, S. Manzano, Z. Megias, A. Barrera, A. Boualem et al., Molecular and functional characterization of CpACS27A gene reveals its involvement in monoecy instability and other associated traits in squash (Cucurbita pepo L.), Planta, vol.239, pp.1201-1215, 2014.
URL : https://hal.archives-ouvertes.fr/hal-02636509