Angela R. Cordle scite author profile

BackgroundFerns, being vascular yet seedless, present unparalleled opportunities to investigate important questions regarding the evolution and development of land plants. Ceratopteris richardii, a diploid, homosporous fern has been advanced as a model fern system; however, the tenuous ability to transform the genome of this fern greatly limited its usefulness as a model organism. Here we report a simple and reliable Agrobacterium-mediated method for generating transient and stable transformants of mature C. richardii gametophytes.ResultsTransformation success was achieved by enzyme treatment that partially digested the cell walls of mature gametophytes to facilitate Agrobacteria infection. Co-incubation of Agrobacteria with enzymatically treated gametophytes was sufficient to generate transient transformants at a frequency of nearly 90% under optimal conditions. Stable transformation was achieved at a rate of nearly 3% by regenerating entire gametophytes from single transformed cells from T0 gametophytes on selective media.ConclusionsThis transformation method will allow for the immediate observation of phenotypes in the haploid gametophytes of transformed plants, as well as the generation of stably transformed C. richardii lines for further analysis. Transformation capability will greatly facilitate gene functional studies in C. richardii, more fully realizing the potential of this model fern species. These protocols may be adapted to other plant species that are recalcitrant to Agrobacterium-mediated transformation.Electronic supplementary materialThe online version of this article (doi:10.1186/s13104-015-1193-x) contains supplementary material, which is available to authorized users.

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Gene expression associated with apogamy commitment in Ceratopteris richardii

Cordle

Irish

Cheng

2012

Sex Plant Reprod

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Apogamy is a phenomenon in which a sporophyte develops asexually, directly from a cell or cells of a gametophyte. It is a phenomenon described mainly in lower plants, but shares certain aspects with apomixis in angiosperms. The genes involved in apogamy commitment in ferns are unknown. We hypothesize that the mechanism of asexual reproduction is controlled in lower and higher plants by overlapping sets of genes. To this end, we created a normalized subtracted cDNA library that represents genes with increased expression during apogamy commitment in the fern Ceratopteris richardii. The cDNA library consists of 170 unique sequences. Compared to the mature gametophyte transcriptome of the fern Pteridium aquilinum, the apogamy library is enriched in plant GO-Slim terms that are associated with stress and metabolism. In silico expression analyses of the closest Arabidopsis homologs of the apogamy library revealed many genes that display preferential expression in seed and flower tissues, structures that are absent in ferns. This apogamy library provides a rich resource for investigations into the genetic control of apogamy in ferns and comparisons with the asexual processes of higher plants.

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Laboratory-Induced Apogamy and Apospory in Ceratopteris richardii

Cordle¹,

Bui²,

Irish³

et al. 2010

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The Power of Gametophyte Transformation

Bui

Long

Irish

et al. 2018

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Angela R. Cordle

Apogamy Induction in Ceratopteris richardii

Transient and stable transformation of Ceratopteris richardii gametophytes

Gene expression associated with apogamy commitment in Ceratopteris richardii

Laboratory-Induced Apogamy and Apospory in Ceratopteris richardii

The Power of Gametophyte Transformation

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