Abstract
Chrysanthemum morifolium is a gynomonoecious plant that bears both female zygomorphic ray florets and bisexual actinomorphic disc florets in the inflorescence. This sexual system is quite prevalent in Asteraceae, but poorly understood. CYCLOIDEA (CYC) 2 subclade transcription factors, key regulators of flower symmetry and floret identity in Asteraceae, have also been speculated to function in reproductive organs and could be an entry point for studying gynomonoecy. However, the molecular mechanism is still unclear. On the other hand, the Arabidopsis WUSCHEL (WUS) transcription factor has been proven to play a vital role in the development of reproductive organs. Here, a WUS homologue (CmWUS) in C. morifolium was isolated and characterized. Overexpression of CmWUS in A. thaliana led to shorter siliques and fewer stamens, which was similar to CYC2-like genes reported before. In addition, both CmWUS and CmCYC2 were highly expressed in flower buds during floral organ differentiation and in the reproductive organs at later development stages, indicating their involvement in the development of reproductive organs. Moreover, CmWUS could directly interact with CmCYC2d. Thus, our data suggest a collaboration between CmWUS and CmCYC2 in the regulation of reproductive organ development in chrysanthemum and will contribute to a further understanding of the gynomonoecious sexual system in Asteraceae.
Highlights
The inflorescence of C. morifolium (Asteraceae) is always comprised of two kinds of florets: the bilaterally symmetric female ray florets and radially symmetric bisexual disc florets [1]
We have identified six CmCYC2 genes in C. morifolium before, and they were found to be strongly expressed in ray florets [38]
Sci. 2019, 20, 1276 complementation (BiFC) assays to determine protein-protein interactions between CmWUS and CmCYC2. These results show a direct interaction between CmWUS and CmCYC2 and may help to understand the genetic and molecular mechanisms of reproductive organ development in Asteraceae
Summary
The inflorescence of C. morifolium (Asteraceae) is always comprised of two kinds of florets: the bilaterally symmetric female ray florets and radially symmetric bisexual disc florets [1]. Previous studies have shown that CYC2-like genes in gerbera (Gerbera hybrida) are functionally redundant in regulating ray floret identity by promoting ligule growth and suppressing stamen development [19,20,21]. CYC2-like genes have been speculated to have late functions in the development of ovaries and carpels in Asteraceae [6,12]. In addition to CYC2-like genes, our previous comparative transcriptome analysis between ray and disc florets in C. morifolium [28] has predicted other candidate transcription factor genes during inflorescence development and organ determination for further studies. Sci. 2019, 20, 1276 complementation (BiFC) assays to determine protein-protein interactions between CmWUS and CmCYC2 These results show a direct interaction between CmWUS and CmCYC2 and may help to understand the genetic and molecular mechanisms of reproductive organ development in Asteraceae
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