The Gene<i>pat-2</i>, Which Induces Natural Parthenocarpy, Alters the Gibberellin Content in Unpollinated Tomato Ovaries

Fos, Mariano; Nuez, F.; Garcı́a-Martı́nez, José-Luis

doi:10.1104/pp.122.2.471

Cited by 139 publications

(173 citation statements)

References 31 publications

(40 reference statements)

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“…In contrast to the Chs RNAi tomato, parthenocarpic fruit development of all these pat mutants is independent of pollination. At least some of these mutants (pat2, pat3, and pat4) contain increased GA levels in their parthenocarpic fruits, suggesting that the ability of these mutants to develop parthenocarpic fruits is due to alterations in GA metabolism (Fos et al, 2000(Fos et al, , 2001. Clearly, fruit development is controlled by complex processes, including multiple plant growth hormones and cross talk between regulatory plant hormones.…”

Section: Discussionmentioning

confidence: 99%

RNA Interference Silencing of Chalcone Synthase, the First Step in the Flavonoid Biosynthesis Pathway, Leads to Parthenocarpic Tomato Fruits

Schijlen

Vos²,

Martens³

et al. 2007

Plant Physiol.

263

159

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; and Keygene N.V., 6700 AE Wageningen, The Netherlands (A.J.v.T.)Parthenocarpy, the formation of seedless fruits in the absence of functional fertilization, is a desirable trait for several important crop plants, including tomato (Solanum lycopersicum). Seedless fruits can be of great value for consumers, the processing industry, and breeding companies. In this article, we propose a novel strategy to obtain parthenocarpic tomatoes by downregulation of the flavonoid biosynthesis pathway using RNA interference (RNAi)-mediated suppression of chalcone synthase (CHS), the first gene in the flavonoid pathway. In CHS RNAi plants, total flavonoid levels, transcript levels of both Chs1 and Chs2, as well as CHS enzyme activity were reduced by up to a few percent of the corresponding wild-type values. Surprisingly, all strong Chs-silenced tomato lines developed parthenocarpic fruits. Although a relation between flavonoids and parthenocarpic fruit development has never been described, it is well known that flavonoids are essential for pollen development and pollen tube growth and, hence, play an essential role in plant reproduction. The observed parthenocarpic fruit development appeared to be pollination dependent, and Chs RNAi fruits displayed impaired pollen tube growth. Our results lead to novel insight in the mechanisms underlying parthenocarpic fruit development. The potential of this technology for applications in plant breeding and biotechnology will be discussed.

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Section: Discussionmentioning

confidence: 99%

RNA Interference Silencing of Chalcone Synthase, the First Step in the Flavonoid Biosynthesis Pathway, Leads to Parthenocarpic Tomato Fruits

Schijlen

Vos²,

Martens³

et al. 2007

Plant Physiol.

263

159

View full text Add to dashboard Cite

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“…The resulting parthenocarpic fruit growth is a clear demonstration of the importance of hormones in fruit initiation and development. There are a number of parthenocarpic tomato mutants, such as pat, pat2 and pat3/4, in which it was shown that the GA content and/or GA biosynthesis were increased signiWcantly (Mazzucato et al 1998;Fos et al 2000Fos et al , 2001Olimpieri et al 2007). Furthermore, overexpression of the iaaM gene, which encodes an enzyme involved in auxin biosynthesis, also induced parthenocarpic fruit development in tomato and many other species (Rotino et al 1997;Mezzetti et al 2004).…”

mentioning

confidence: 99%

Abscisic acid levels in tomato ovaries are regulated by LeNCED1 and SlCYP707A1

Nitsch

Oplaat

Feron

et al. 2009

Planta

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Although the hormones, gibberellin and auxin, are known to play a role in the initiation of fruits, no such function has yet been demonstrated for abscisic acid (ABA). However, ABA signaling and ABA responses are high in tomato (Solanum lycopersicum L.) ovaries before pollination and decrease thereafter (Vriezen et al. in New Phytol 177:60-76, 2008). As a Wrst step to understanding the role of ABA in ovary development and fruit set in tomato, we analyzed ABA content and the expression of genes involved in its metabolism in relation to pollination. We show that ABA levels are relatively high in mature ovaries and decrease directly after pollination, while an increase in the ABA metabolite dihydrophaseic acid was measured. An important regulator of ABA biosynthesis in tomato is 9-cis-epoxy-carotenoid dioxygenase (LeNCED1), whose mRNA level in ovaries is reduced after pollination. The increased catabolism is likely caused by strong induction of one of four newly identiWed putative (+)ABA 8Ј-hydroxylase genes. This gene was named SlCYP707A1 and is expressed speciWcally in ovules and placenta. Transgenic plants, overexpressing SlCYP707A1, have reduced ABA levels and exhibit ABA-deWcient phenotypes suggesting that this gene encodes a functional ABA 8Ј-hydroxylase. Gibberellin and auxin application have diVerent eVects on the LeNCED1 and SlCYP707A1 gene expression. The crosstalk between auxins, gibberellins and ABA during fruit set is discussed.

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“…In tomato, the GA biosynthetic genes CPS, GA20ox, GA3ox, GA2ox and GA4 have been isolated (Rebers et al, 1999 andSerrani et al, 2007). The process of fruit set in tomato involves GA1 as the bioactive GA molecule and the early 13-hydroxylation pathway as the primary metabolic pathway (Serrani et al, 2007 andFos et al, 2000). Pollination mediates fruit set through GA biosynthesis, which is mainly achieved by the up-regulation of GA20ox (Serrani at al., 2007).…”

Section: Introductionmentioning

confidence: 99%

Effect of Priming With Gibberellin On Germination and Expression of Ga Biosynthesis Gene Of Tomato (Solanum Lycopersicum L.) Seedlings Under Salt Stress

Elkholy¹,

Tjprc²

2018

IJBTR

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Seed germination is the initial step of plant development. Seed priming with salt enhances seed germination in tomato (Solanum lycopersicum L.); however, the molecular and physiological mechanisms underlying the enhancement of seed germination by priming remain to be elucidated. Tomato seeds were soaked for 24 hrs at 25 ºC in the dark in different concentrations of NaCl (NaCl-priming) or distilled water (hydro-priming) and different concentrations of gibberellin. In this study, we examined the expression of genes encoding gibberellic acid (GA) biosynthesis enzymes, including GA 20-oxidase (GA20ox), GA 3-oxidase (GA3ox) and GA4 (GA 3beta-hydroxylase). The germination percentage and germination rate of tomato seeds were increased after soaking with GA under NaCl stress.The expression profiles of GA biosynthesis genes were investigated with the semi-quantitative RT-PCR. Additionally, the expression levels of GA biosynthetic gene were higher in the NaCl-primed seeds than in the hydro-primed seeds.These results suggest that the observed effect of NaCl-priming on tomato seed germination is caused by an increase of the GA content via GA biosynthetic gene activation that helps tomato plant to tolerate salt stress.

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The Genepat-2, Which Induces Natural Parthenocarpy, Alters the Gibberellin Content in Unpollinated Tomato Ovaries

Cited by 139 publications

References 31 publications

RNA Interference Silencing of Chalcone Synthase, the First Step in the Flavonoid Biosynthesis Pathway, Leads to Parthenocarpic Tomato Fruits

RNA Interference Silencing of Chalcone Synthase, the First Step in the Flavonoid Biosynthesis Pathway, Leads to Parthenocarpic Tomato Fruits

Abscisic acid levels in tomato ovaries are regulated by LeNCED1 and SlCYP707A1

Effect of Priming With Gibberellin On Germination and Expression of Ga Biosynthesis Gene Of Tomato (Solanum Lycopersicum L.) Seedlings Under Salt Stress

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