Transposon tagging in diploid strawberry

Veilleux, Richard E.; Mills, Kerri; Baxter, Anthony J.; Upham, Kendall T.; Ferguson, Tammy; Holt, Sarah H.; Lu, Nan; Ruiz-Rojas, Juan Jairo; Pantazis, Christopher J.; Davis, Cherish M.; Lindsay, R.C.; Powell, Frankie L.; Dan, Yinghui; Dickerman, Allan W.; Oosumi, Teruko; Shulaev, Vladimir

doi:10.1111/j.1467-7652.2012.00728.x

Cited by 16 publications

(4 citation statements)

References 26 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Compared with most other cultivated perennials, the plants are compact, easily grown under controlled conditions, and can be propagated both sexually and asexually (Slovin and Michael, 2011). An efficient transformation system for F. vesca has been developed (Oosumi et al, 2006) and transposon‐tagged mutants are available for reverse genetics applications (Veilleux et al, 2012). The genome sequence of F. vesca has already facilitated significant progress in functional genomics of flowering (Mouhu et al, 2013; Hollender et al, 2014) and fruiting (Kang et al, 2013), and these advances will ultimately be applied to crop improvement efforts (Folta, 2013; Longhi et al, 2014).…”

Section: Fragaria Species and Their Ploidy Level Mating System And Gmentioning

confidence: 99%

Fragaria: A genus with deep historical roots and ripe for evolutionary and ecological insights

Liston

Cronn

Ashman

2014

American J of Botany

154

138

View full text Add to dashboard Cite

The cultivated strawberry, Fragaria ×ananassa, is one of the youngest domesticated plants. Its 18th century origin via hybridization in Europe between the North American F. virginiana and the South American F. chiloensis was documented by the botanist Antoine Nicolas Duchesne. His 1766 "Natural History of Strawberries" is an extraordinary work that integrates fundamental discoveries on the biology, ecology, and phylogeny of Fragaria with applied information on cultivation and ethnobotanical uses, serving as an inspiration for current research in the genus. Fragaria species exhibit the full range of sexual systems in the gynodioecy pathway from hermaphroditism to dioecy (and back again), as well as variation in self-compatibility, and evidence of sex chromosomes with female heterogamety. The genus is also characterized by interspecific hybridization and polyploidy, with a natural range of ploidy levels from diploids to decaploids. This biological diversity, combined with the availability of genomic resources and the ease of growing and experimenting with the plants, makes Fragaria a very attractive system for ecological and evolutionary genomics. The goal of this review is to introduce Fragaria as a model genus and to provide a roadmap for future integrative research. These research directions will deepen our understanding of the ecological and evolutionary context that shaped the ancestors of the cultivated strawberry, not only providing information that can be applied to efforts to shape the future of this important fruit crop but also our understanding of key transitions in plant evolution.

show abstract

Section: Fragaria Species and Their Ploidy Level Mating System And Gmentioning

confidence: 99%

Fragaria: A genus with deep historical roots and ripe for evolutionary and ecological insights

Liston

Cronn

Ashman

2014

American J of Botany

154

138

View full text Add to dashboard Cite

show abstract

“…On a larger scale, functional genomics can rely on the analysis of mutant collections, which have been developed or are currently being produced. After generating T-DNA or transposon-tagged lines (Oosumi et al, 2010;Veilleux et al, 2012), collections of EMS mutants appear to be very promising (Denoyes, Slovin pers comm).…”

Section: What Tools Do We Have To Study the Relationships Between Genmentioning

confidence: 99%

Genomics tools available for unravelling mechanisms underlying agronomical traits in strawberry with more to come

Denoyés-Rothan¹,

Amaya²,

Liston³

et al. 2017

Acta Hortic.

View full text Add to dashboard Cite

In the last few years, high-throughput genomics promised to bridge the gap between plant physiology and plant sciences. In addition, high-throughput genotyping technologies facilitate marker-based selection for better performing genotypes. In strawberry, Fragaria vesca was the first reference sequence obtained in the Rosoideae sub-family. This genome has a high level of synteny with genomes of other species of diploid and polyploid Fragaria, but it also provides a reference for species like Rubus and Rosa for functional genomics. Many tools for genetic, genomic and functional analyses were introduced over the last 10 years and these tools are still evolving. For genotyping, many studies have used simple sequence repeats (SSRs) but whole genome sequencing is now a mature technology and facilitates the development of genotyping chips and other genetic approaches such as genome wide association studies (GWAS). Furthermore, microarray-based technologies have been eclipsed by RNA-seq, the high-throughput sequencing of RNA. These new approaches have led to advances in our understanding of the genetically complex octoploid species, and have revolutionized functional genomics. For all genetic and genomic studies, novel material such as complex crosses such as NILs and EMS have appeared in addition to the classical segregating population. With all these tools, strawberry now emerges as a plant model, not only for studying fruit quality but also for deciphering the mechanisms controlling various aspects of plant biology. Selective examples will be described to illustrate the latest research on strawberry and what is coming from other model species.

show abstract

“…Transposable element (TE) tagging has become a powerful tool to create mutants for isolating new genes in animal and plant systems (Lin et al 2006; Horie et al 2011; Veilleux et al 2012). Several experimental approaches have been used to develop transgenic plants with genes randomly tagged by insertion elements (Greco et al 2001; Hirochika 2001; Hirochika et al 2004; Izawa et al 1997; Jeon and An 2001).…”

Section: Introductionmentioning

confidence: 99%

Application of an inducible transposon with anther culture in generation of di-haploid homologous mutants

Yang

Charng

2014

Bot Stud

View full text Add to dashboard Cite

BackgroundInsertional mutagenesis represents one of the most effective ways to acquire information about a plant gene’s function. However, it is hindered by the autosomal genome being diploid and therefore, most mutations being recessive. The problem is addressed by inducing the transposition during anther culture so that selected mutations can be transmitted and then regenerated to a homozygous state.ResultsTo this end, we treated transgenic rice floral tissues containing the inducible transposon with an inducer, salicylic acid. Excision events were detected in regenerated calli and subsequent plantlets. DNA blot and PCR assay were used to determine the homogeneity of knockout mutants. About 5% of the mutants containing transposition events were homozygous. Furthermore, the inducible transposon was active during calli regeneration.ConclusionsThis strategy could be applicable to improve transposition efficiency in microspore development stages to create stable di-haploid mutants in plants.Electronic supplementary materialThe online version of this article (doi:10.1186/1999-3110-55-27) contains supplementary material, which is available to authorized users.

show abstract

Transposon tagging in diploid strawberry

Cited by 16 publications

References 26 publications

Fragaria: A genus with deep historical roots and ripe for evolutionary and ecological insights

Fragaria: A genus with deep historical roots and ripe for evolutionary and ecological insights

Genomics tools available for unravelling mechanisms underlying agronomical traits in strawberry with more to come

Application of an inducible transposon with anther culture in generation of di-haploid homologous mutants

Contact Info

Product

Resources

About