Comparative transcriptomic analysis of male and female flowers of monoecious Quercus suber.

Margarida Rocheta,Teresa Ribeiro,Miguel Pinheiro,Maria I Amorim,Conceiã§Ã£O Egas,Leonor Morais-Cecã­Lio,Joana Magalhã£Es,Maria M R Costa,Rã³Mulo Sobral

doi:10.3389/fpls.2014.00599

Margarida Rocheta, Teresa Ribeiro + Show 7 more

Open Access

https://doi.org/10.3389/fpls.2014.00599

Copy DOI

Abstract

Monoecious species provide a comprehensive system to study the developmental programs underlying the establishment of female and male organs in unisexual flowers. However, molecular resources for most monoecious non-model species are limited, hampering our ability to study the molecular mechanisms involved in flower development of these species. The objective of this study was to identify differentially expressed genes during the development of male and female flowers of the monoecious species Quercus suber, an economically important Mediterranean tree. Total RNA was extracted from different developmental stages of Q. suber flowers. Non-normalized cDNA libraries of male and female flowers were generated using 454 pyrosequencing technology producing a total of 962,172 high-quality reads with an average length of 264 nucleotides. The assembly of the reads resulted in 14,488 contigs for female libraries and 10,438 contigs for male libraries. Comparative analysis of the transcriptomes revealed genes differentially expressed in early and late stages of development of female and male flowers, some of which have been shown to be involved in pollen development, in ovule formation and in flower development of other species with a monoecious, dioecious, or hermaphroditic sexual system. Moreover, we found differentially expressed genes that have not yet been characterized and others that have not been previously shown to be implicated in flower development. This transcriptomic analysis constitutes a major step toward the characterization of the molecular mechanisms involved in flower development in a monoecious tree with a potential contribution toward the knowledge of conserved developmental mechanisms in other species.

Highlights

Quercus suber (L.) is one of the most important forest species in Portugal, being the dominant tree of the oak woodlands (Aronson et al, 2009)
Concerning the differentially expressed genes more represented in female flowers, we identified a homolog for POLYGALACTURONASE-1 that is comparatively 356 times more expressed in female tissues
Monoecious and dioecious species have been long considered unique tools to study the developmental programs involved in the formation of separate male and female flowers

Summary

Introduction

Quercus suber (L.) is one of the most important forest species in Portugal, being the dominant tree of the oak woodlands (Aronson et al, 2009). Male flowers are organized in catkins that emerge in reproductive buds of the previous growth season or at the base of the branches of the current season. Female flowers are included in a cupule and contain three carpels, with two ovules each (Boavida et al, 1999). The wind driven pollen lays on the receptive stigmatic surface, germinates and the pollen tube grows throughout the transmitting tissue, until it reaches the base of the style. Only one of the six ovules develops into a monospermic seed, which matures during autumn (Ducousso et al, 1993; Boavida et al, 1999)

Objectives

Methods

Results

Conclusion