Abstract
In angiosperms, sex determination leads to development of unisexual flowers. In Cucumis melo, development of unisexual male flowers results from the expression of the sex determination gene, CmWIP1, in carpel primordia. To bring new insight on the molecular mechanisms through which CmWIP1 leads to carpel abortion in male flowers, we used the yeast two-hybrid approach to look for CmWIP1-interacting proteins. We found that CmWIP1 physically interacts with an S2 bZIP transcription factor, CmbZIP48. We further determined the region mediating the interaction and showed that it involves the N-terminal part of CmWIP1. Using laser capture microdissection coupled with quantitative real-time gene expression analysis, we demonstrated that CmWIP1 and CmbZIP48 share a similar spatiotemporal expression pattern, providing the plant organ context for the CmWIP1-CmbZIP48 protein interaction. Using sex transition mutants, we demonstrated that the expression of the male promoting gene CmWIP1 correlates with the expression of CmbZIP48. Altogether, our data support a model in which the coexpression and the physical interaction of CmWIP1 and CmbZIP48 trigger carpel primordia abortion, leading to the development of unisexual male flowers.
Highlights
In angiosperms, sex determination leads to development of unisexual flowers
We showed that CmWIP1 physically interacts with a basic leucine zipper transcription factor, MELO3C022062_CmbZIP48, and that CmWIP1-CmbZIP48 protein interaction is mediated by the N-terminal part of CmWIP1
Thanks to the investigation of the spatiotemporal expression pattern in sex transition mutants, we demonstrated that the expression of the male promoting gene CmWIP1 correlates with the expression of CmbZIP48 in the carpel primordia of male flowers to lead to unisexual male flowers
Summary
In Cucumis melo, development of unisexual male flowers results from the expression of the sex determination gene, CmWIP1, in carpel primordia. Our data support a model in which the coexpression and the physical interaction of CmWIP1 and CmbZIP48 trigger carpel primordia abortion, leading to the development of unisexual male flowers. Flowers are bisexual at early developmental stages sex determination occurs by the developmental arrest of either the stamen or the carpel primordia, resulting in unisexual flowers. This sexual organ arrest is genetically governed by the interaction of the andromonoecious (M), androecious gene (A) and gynoecious (G) genes that define the monoecy sex determination pathway in cucurbits[3]. This hypothesis has been further validated by a recent study demonstrating that in Arabidopsis, the ntt/wip4/wip[5] triple mutants fail to develop roots[11]
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