Flexible Tools for Gene Expression and Silencing in Tomato

Fernandez, Ana; Viron, Nicolas; Alhagdow, Moftah; Karimi, Mansour; Jones, Matthew O.; Amsellem, Ziva; Sicard, Adrien; Czerednik, Anna; Angenent, Gerco C.; Grierson, Donald; May, Sean; Seymour, Graham B.; Eshed, Yuval; Lemaire-Chamley, Martine; Rothan, Christophe; Hilson, Pierre

doi:10.1104/pp.109.147546

Cited by 99 publications

(82 citation statements)

References 51 publications

(73 reference statements)

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“…However, certain speciesspecific differences exist in the dynamics of other metabolite pools across ripening, with, for example, grape (Vitis vinifera), strawberry (Fragaria 3 ananassa), prune (Prunus domestica), and pepper (Capsicum annuum) displaying slightly different metabolic programs from tomato (Solanum lycopersicum; Zamboni et al, 2010;Lombardo et al, 2011;Osorio et al, 2011Osorio et al, , 2012Zhang et al, 2011). This fact notwithstanding, tomato has become the primary experimental model in which to study the development and ripening of fleshy fruits (Giovannoni, 2004;Fernandez et al, 2009). Furthermore, it is arguably also the best characterized fruit at the biochemical level (Rose and Bennett, 1999;Fraser and Bickmore, 2007;Moco et al, 2007).…”

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confidence: 99%

Alteration of the Interconversion of Pyruvate and Malate in the Plastid or Cytosol of Ripening Tomato Fruit Invokes Diverse Consequences on Sugar But Similar Effects on Cellular Organic Acid, Metabolism, and Transitory Starch Accumulation

et al. 2012

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The aim of this work was to investigate the effect of decreased cytosolic phosphoenolpyruvate carboxykinase (PEPCK) and plastidic NADP-dependent malic enzyme (ME) on tomato (Solanum lycopersicum) ripening. Transgenic tomato plants with strongly reduced levels of PEPCK and plastidic NADP-ME were generated by RNA interference gene silencing under the control of a ripening-specific E8 promoter. While these genetic modifications had relatively little effect on the total fruit yield and size, they had strong effects on fruit metabolism. Both transformants were characterized by lower levels of starch at breaker stage. Analysis of the activation state of ADP-glucose pyrophosphorylase correlated with the decrease of starch in both transformants, which suggests that it is due to an altered cellular redox status. Moreover, metabolic profiling and feeding experiments involving positionally labeled glucoses of fruits lacking in plastidic NADP-ME and cytosolic PEPCK activities revealed differential changes in overall respiration rates and tricarboxylic acid (TCA) cycle flux. Inactivation of cytosolic PEPCK affected the respiration rate, which suggests that an excess of oxaloacetate is converted to aspartate and reintroduced in the TCA cycle via 2-oxoglutarate/glutamate. On the other hand, the plastidic NADP-ME antisense lines were characterized by no changes in respiration rates and TCA cycle flux, which together with increases of pyruvate kinase and phosphoenolpyruvate carboxylase activities indicate that pyruvate is supplied through these enzymes to the TCA cycle. These results are discussed in the context of current models of the importance of malate during tomato fruit ripening.

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confidence: 99%

Alteration of the Interconversion of Pyruvate and Malate in the Plastid or Cytosol of Ripening Tomato Fruit Invokes Diverse Consequences on Sugar But Similar Effects on Cellular Organic Acid, Metabolism, and Transitory Starch Accumulation

et al. 2012

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“…In addition, novel resources for temporal and tissue-specific manipulation of gene expression in tomato plants are now available for the scientific community. In this regard, it is noteworthy the work from Fernandez et al (2009) andEstornell et al (2009) that created new Solanaceae genetic toolkit for targeted gene expression and silencing in tomato fruits. Recently, as the information provided by the tomato genome sequencing become available, the demand for efficient functional genomics tools are increasing.…”

Section: Techniques For Tomato Genetic Transformationmentioning

confidence: 99%

Genetic Transformation in Tomato: Novel Tools to Improve Fruit Quality and Pharmaceutical Production

Matteo¹,

Rigano²,

Sacco³

et al. 2011

Genetic Transformation

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“…Because the generation of large enough transfer DNA (T-DNA) or transposon-tagged lines remains out of reach in tomato (Emmanuel and Levy 2002), functional analysis in planta of the target genes is usually done using stable genetic transformation (over-expression, RNA interference and chimeric repressor silencing technologies) with constitutive or tissue-specific promoters (Fernandez et al 2009) or transient expression by agro-infiltration or VIGS (Virus Induced Gene Silencing) (Orzaez et al 2009;Quadrana et al 2011). Recently, association mapping has also been shown to be an effective tool for assessing the molecular basis of fruit quality traits in tomato (Xu et al 2013).…”

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confidence: 99%

Micro-Tom mutants for functional analysis of target genes and discovery of new alleles in tomato

Just

Garcia

Fernández

et al. 2013

Plant Biotechnology

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Tomato is currently the model plant for fleshy fruit development and for Solanaceae species. Recent genomic approaches including transcriptome, proteome and metabolome analyses and genetic mapping have produced a wealth of candidate genes whose function needs to be assessed. The recent development in model and crop plants of TILLING (Targeting Induced Local Lesions IN Genomes), which reveals allelic series corresponding to several independent point mutations, and the current availability of deep sequencing tools further increase the interest of generating artificiallyinduced genetic diversity in tomato. We describe here the generation and use of EMS (ethyl methanesulfonate) tomato mutants in the miniature cultivar Micro-Tom and provide as example the identification of new fruit size and morphology mutants. We further propose new deep sequencing-based strategies for the discovery of mutations underlying phenotypic variations observed in mutant collections that will considerably increase the interest of exploiting Micro-Tom mutant collections for gene discovery in tomato.

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Flexible Tools for Gene Expression and Silencing in Tomato

Cited by 99 publications

References 51 publications

Alteration of the Interconversion of Pyruvate and Malate in the Plastid or Cytosol of Ripening Tomato Fruit Invokes Diverse Consequences on Sugar But Similar Effects on Cellular Organic Acid, Metabolism, and Transitory Starch Accumulation

Alteration of the Interconversion of Pyruvate and Malate in the Plastid or Cytosol of Ripening Tomato Fruit Invokes Diverse Consequences on Sugar But Similar Effects on Cellular Organic Acid, Metabolism, and Transitory Starch Accumulation

Genetic Transformation in Tomato: Novel Tools to Improve Fruit Quality and Pharmaceutical Production

Micro-Tom mutants for functional analysis of target genes and discovery of new alleles in tomato

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