Publication details

Transcriptomic and Proteomic Insights into Amborella trichopoda Male Gametophyte Functions

Authors

FLORES-TORNERO Maria VOGLER Frank MUTWIL Marek POTĚŠIL David IHNATOVÁ Ivana ZDRÁHAL Zbyněk SPRUNCK Stefanie DRESSELHAUS Thomas

Year of publication 2020
Type Article in Periodical
Magazine / Source Plant Physiology
MU Faculty or unit

Central European Institute of Technology

Citation
web fulltext
Doi http://dx.doi.org/10.1104/pp.20.00837
Keywords POLLEN-TUBE GROWTH; PECTIN METHYLESTERASE; MATURE POLLEN; SPERM CELLS; GERMINATED POLLEN; VEGETATIVE NUCLEI; GENERATIVE CELLS; TOMATO POLLEN; UDP-GLUCOSE; MOTHER CELL
Description Transcriptomic and proteomic data from the basal angiosperm Amborella provide a resource to understand the evolution of male gametophyte functions in flowering plants. Flowering plants (angiosperms) are characterized by pollen tubes (PTs; male gametophytes) carrying two immobile sperm cells that grow over long distances through the carpel toward the ovules, where double fertilization is executed. It is not understood how these reproductive structures evolved, which genes occur de novo in male gametophytes of angiosperms, and to which extent PT functions are conserved among angiosperms. To contribute to a deeper understanding of the evolution of gametophyte functions, we generated RNA sequencing data from seven reproductive and two vegetative control tissues of the basal angiosperm Amborella trichopoda and complemented these with proteomic data of pollen grains (PGs) and PTs. The eudicot model plant Arabidopsis (Arabidopsis thaliana) served as a reference organism for data analysis, as more than 200 genes have been associated with male gametophyte functions in this species. We describe methods to collect bicellular A. trichopoda PGs, to induce their germination in vitro, and to monitor PT growth and germ cell division. Transcriptomic and proteomic analyses indicate that A. trichopoda PGs are prepared for germination requiring lipids, energy, but likely also reactive oxygen species, while PTs are especially characterized by catabolic/biosynthetic and transport processes including cell wall biosynthesis and gene regulation. Notably, a number of pollen-specific genes were lacking in Arabidopsis, and the number of genes involved in pollen signaling is significantly reduced in A. trichopoda. In conclusion, we provide insight into male gametophyte functions of the most basal angiosperm and establish a valuable resource for future studies on the evolution of flowering plants.
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