Abstract
BackgroundCeratopteris richardii is a useful experimental system for studying gametophyte development and sexual reproduction in plants. However, few tools for cloning mutant genes or disrupting gene function exist for this species. The feasibility of systemic gene silencing as a reverse genetics tool was examined in this study.ResultsSeveral DNA constructs targeting a Ceratopteris protoporphyrin IX magnesium chelatase (CrChlI) gene that is required for chlorophyll biosynthesis were each introduced into young gametophytes by biolistic delivery. Their transient expression in individual cells resulted in a colorless cell phenotype that affected most cells of the mature gametophyte, including the meristem and gametangia. The colorless phenotype was associated with a 7-fold decrease in the abundance of the endogenous transcript. While a construct designed to promote the transient expression of a CrChlI double stranded, potentially hairpin-forming RNA was found to be the most efficient in systemically silencing the endogenous gene, a plasmid containing the CrChlI cDNA insert alone was sufficient to induce silencing. Bombarded, colorless hermaphroditic gametophytes produced colorless embryos following self-fertilization, demonstrating that the silencing signal could be transmitted through gametogenesis and fertilization. Bombardment of young gametophytes with constructs targeting the Ceratopteris filamentous temperature sensitive (CrFtsZ) and uroporphyrin dehydrogenase (CrUrod) genes also produced the expected mutant phenotypes.ConclusionA method that induces the systemic silencing of target genes in the Ceratopteris gametophyte is described. It provides a simple, inexpensive and rapid means to test the functions of genes involved in gametophyte development, especially those involved in cellular processes common to all plants.
Highlights
Ceratopteris richardii is a useful experimental system for studying gametophyte development and sexual reproduction in plants
This study investigates the feasibility of DNA vector based gene silencing as a reverse genetics technique for studying gene function in gametophytes
We show that systemic gene silencing occurs in Ceratopteris gametophytes when appropriate transgene constructs are introduced into young gametophytes by particle bombardment, that the silencing effects are non-cell autonomous, and that the phenotype resulting from gene silencing can be transmitted from the gametophyte to the sporophyte generation, at low frequencies
Summary
Ceratopteris richardii is a useful experimental system for studying gametophyte development and sexual reproduction in plants. We have used the homosporous fern Ceratopteris richardii as a model system for studying gametophyte development because Ceratopteris gametophytes are autotrophic, small (~1 mm) and develop rapidly [1]. They can be manipulated to develop as males or hermaphrodites by the pheromone antheridiogen [2] and are crossed. While Ceratopteris has proven to be a useful genetic system for dissecting its sex determination pathway [3,4,5], it has yet to be stably transformed, which makes it difficult to clone genes known only for their mutant phenotype or to test the functions of gametophytically expressed genes
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