Citrus tetraploid rootstocks are more tolerant to salt stress than diploid
Salt stress has a dramatic impact on the citrus industry by decreasing the growth of trees and fruit yield. We studied at the physiological and molecular level diploid and tetraploid citrus rootstocks when confronted to salt stress. Those tetraploid plants originate from the chromosome duplication in nucellar cells (somatic cells) of the apomictic diploid parent. Diploid and autotetraploid of Poncirus trifoliate (Pomeroy Poncirus trifoliata) and WillowLeaf mandarin (Citrus deliciosa) were studied. The allotetraploid somatic hybrid FLHORAG1 which was obtained by electrofusion between Willow-Leaf mandarin and Pomeroy Poncirus protoplasts was as weil investigated. Poncirus trifoliate is known to be a salt sensitive rootstock. Willow leaf mandarin is not used as a rootstock but was supposed to have a greater property of salt tolerance, similar to other mandarins such as Cleopatra mandarin. The anatomy of the leaf of diploid and tetraploid plants was first investigated. The stomatal area of tetraploid is 1.6 fold higher than the one of diploid plants. Stomatal density was also different between diploid and tetraploid. A 50 mM sodium chloride (NaCl) stress was perforrned for 9 weeks. Salinity caused leaf injuries and leaf fall in diploid of Poncirus while the tetraploid plants were not damaged. Autotetraploids and the allotetraploid FLHORAG1 acted like salt tolerant when compared to diploid plants. Sodium and chloride accumulation were similar for both diploid and tetraploid genotypes suggesting that root exclusion and/or accumulation of toxic ions in vacuoles is not the only way for salt tolerance. In order to characterize the molecular deterrninants mediating the salt tolerance of polyploids we investigated the gene expression profiles by using cDNA-AFLP technique. Contrasted gene expression profiles were detected between diploids and tetraploids as weil as between control and stressed plants. Transcript Derived Fragments (TDFs) from contrasted profiles pattern were sequenced. 14 genes involved in osmotic adjustment, defense and signal transduction were isolated. The expression of sorne of those genes such as genes coding for the choline monooxigenase enzyme and the Group 5 late embryogenesis abundant protein (LEA5) and genes involved in the Abscissic Acid biosynthesis pathway are actually monitored by using Real Time PCR. (Texte intégral)
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dig-cirad-fr-5475882022-02-15T07:33:08Z http://agritrop.cirad.fr/547588/ http://agritrop.cirad.fr/547588/ Citrus tetraploid rootstocks are more tolerant to salt stress than diploid. Mouhaya Wafa, Allario Thierry, Costantino Gilles, Andres Fernando, Talon Manuel, Luro François, Ollitrault Patrick, Morillon Raphaël. 2008. In : Modern Variety Breeding for Present and Future Needs. 18th EUCARPIA General Congress, 9-12 September 2008, Valencia, Spain. Universidad Politécnica de Valencia. s.l. : s.n., Résumé, 439. EUCARPIA General Congress "Modern Variety Breeding for Present and Future Needs". 18, Valence, Espagne, 9 Septembre 2008/12 Septembre 2008. Researchers Citrus tetraploid rootstocks are more tolerant to salt stress than diploid Mouhaya, Wafa Allario, Thierry Costantino, Gilles Andres, Fernando Talon, Manuel Luro, François Ollitrault, Patrick Morillon, Raphaël eng 2008 s.n. Modern Variety Breeding for Present and Future Needs. 18th EUCARPIA General Congress, 9-12 September 2008, Valencia, Spain F30 - Génétique et amélioration des plantes Citrus Poncirus http://aims.fao.org/aos/agrovoc/c_1637 http://aims.fao.org/aos/agrovoc/c_32770 Salt stress has a dramatic impact on the citrus industry by decreasing the growth of trees and fruit yield. We studied at the physiological and molecular level diploid and tetraploid citrus rootstocks when confronted to salt stress. Those tetraploid plants originate from the chromosome duplication in nucellar cells (somatic cells) of the apomictic diploid parent. Diploid and autotetraploid of Poncirus trifoliate (Pomeroy Poncirus trifoliata) and WillowLeaf mandarin (Citrus deliciosa) were studied. The allotetraploid somatic hybrid FLHORAG1 which was obtained by electrofusion between Willow-Leaf mandarin and Pomeroy Poncirus protoplasts was as weil investigated. Poncirus trifoliate is known to be a salt sensitive rootstock. Willow leaf mandarin is not used as a rootstock but was supposed to have a greater property of salt tolerance, similar to other mandarins such as Cleopatra mandarin. The anatomy of the leaf of diploid and tetraploid plants was first investigated. The stomatal area of tetraploid is 1.6 fold higher than the one of diploid plants. Stomatal density was also different between diploid and tetraploid. A 50 mM sodium chloride (NaCl) stress was perforrned for 9 weeks. Salinity caused leaf injuries and leaf fall in diploid of Poncirus while the tetraploid plants were not damaged. Autotetraploids and the allotetraploid FLHORAG1 acted like salt tolerant when compared to diploid plants. Sodium and chloride accumulation were similar for both diploid and tetraploid genotypes suggesting that root exclusion and/or accumulation of toxic ions in vacuoles is not the only way for salt tolerance. In order to characterize the molecular deterrninants mediating the salt tolerance of polyploids we investigated the gene expression profiles by using cDNA-AFLP technique. Contrasted gene expression profiles were detected between diploids and tetraploids as weil as between control and stressed plants. Transcript Derived Fragments (TDFs) from contrasted profiles pattern were sequenced. 14 genes involved in osmotic adjustment, defense and signal transduction were isolated. The expression of sorne of those genes such as genes coding for the choline monooxigenase enzyme and the Group 5 late embryogenesis abundant protein (LEA5) and genes involved in the Abscissic Acid biosynthesis pathway are actually monitored by using Real Time PCR. (Texte intégral) conference_item info:eu-repo/semantics/conferenceObject Conference info:eu-repo/semantics/publishedVersion http://agritrop.cirad.fr/547588/1/document_547588.pdf application/pdf Cirad license info:eu-repo/semantics/openAccess https://agritrop.cirad.fr/mention_legale.html |
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F30 - Génétique et amélioration des plantes Citrus Poncirus http://aims.fao.org/aos/agrovoc/c_1637 http://aims.fao.org/aos/agrovoc/c_32770 F30 - Génétique et amélioration des plantes Citrus Poncirus http://aims.fao.org/aos/agrovoc/c_1637 http://aims.fao.org/aos/agrovoc/c_32770 |
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F30 - Génétique et amélioration des plantes Citrus Poncirus http://aims.fao.org/aos/agrovoc/c_1637 http://aims.fao.org/aos/agrovoc/c_32770 F30 - Génétique et amélioration des plantes Citrus Poncirus http://aims.fao.org/aos/agrovoc/c_1637 http://aims.fao.org/aos/agrovoc/c_32770 Mouhaya, Wafa Allario, Thierry Costantino, Gilles Andres, Fernando Talon, Manuel Luro, François Ollitrault, Patrick Morillon, Raphaël Citrus tetraploid rootstocks are more tolerant to salt stress than diploid |
| description |
Salt stress has a dramatic impact on the citrus industry by decreasing the growth of trees and fruit yield. We studied at the physiological and molecular level diploid and tetraploid citrus rootstocks when confronted to salt stress. Those tetraploid plants originate from the chromosome duplication in nucellar cells (somatic cells) of the apomictic diploid parent. Diploid and autotetraploid of Poncirus trifoliate (Pomeroy Poncirus trifoliata) and WillowLeaf mandarin (Citrus deliciosa) were studied. The allotetraploid somatic hybrid FLHORAG1 which was obtained by electrofusion between Willow-Leaf mandarin and Pomeroy Poncirus protoplasts was as weil investigated. Poncirus trifoliate is known to be a salt sensitive rootstock. Willow leaf mandarin is not used as a rootstock but was supposed to have a greater property of salt tolerance, similar to other mandarins such as Cleopatra mandarin. The anatomy of the leaf of diploid and tetraploid plants was first investigated. The stomatal area of tetraploid is 1.6 fold higher than the one of diploid plants. Stomatal density was also different between diploid and tetraploid. A 50 mM sodium chloride (NaCl) stress was perforrned for 9 weeks. Salinity caused leaf injuries and leaf fall in diploid of Poncirus while the tetraploid plants were not damaged. Autotetraploids and the allotetraploid FLHORAG1 acted like salt tolerant when compared to diploid plants. Sodium and chloride accumulation were similar for both diploid and tetraploid genotypes suggesting that root exclusion and/or accumulation of toxic ions in vacuoles is not the only way for salt tolerance. In order to characterize the molecular deterrninants mediating the salt tolerance of polyploids we investigated the gene expression profiles by using cDNA-AFLP technique. Contrasted gene expression profiles were detected between diploids and tetraploids as weil as between control and stressed plants. Transcript Derived Fragments (TDFs) from contrasted profiles pattern were sequenced. 14 genes involved in osmotic adjustment, defense and signal transduction were isolated. The expression of sorne of those genes such as genes coding for the choline monooxigenase enzyme and the Group 5 late embryogenesis abundant protein (LEA5) and genes involved in the Abscissic Acid biosynthesis pathway are actually monitored by using Real Time PCR. (Texte intégral) |
| format |
conference_item |
| topic_facet |
F30 - Génétique et amélioration des plantes Citrus Poncirus http://aims.fao.org/aos/agrovoc/c_1637 http://aims.fao.org/aos/agrovoc/c_32770 |
| author |
Mouhaya, Wafa Allario, Thierry Costantino, Gilles Andres, Fernando Talon, Manuel Luro, François Ollitrault, Patrick Morillon, Raphaël |
| author_facet |
Mouhaya, Wafa Allario, Thierry Costantino, Gilles Andres, Fernando Talon, Manuel Luro, François Ollitrault, Patrick Morillon, Raphaël |
| author_sort |
Mouhaya, Wafa |
| title |
Citrus tetraploid rootstocks are more tolerant to salt stress than diploid |
| title_short |
Citrus tetraploid rootstocks are more tolerant to salt stress than diploid |
| title_full |
Citrus tetraploid rootstocks are more tolerant to salt stress than diploid |
| title_fullStr |
Citrus tetraploid rootstocks are more tolerant to salt stress than diploid |
| title_full_unstemmed |
Citrus tetraploid rootstocks are more tolerant to salt stress than diploid |
| title_sort |
citrus tetraploid rootstocks are more tolerant to salt stress than diploid |
| publisher |
s.n. |
| url |
http://agritrop.cirad.fr/547588/ http://agritrop.cirad.fr/547588/1/document_547588.pdf |
| work_keys_str_mv |
AT mouhayawafa citrustetraploidrootstocksaremoretoleranttosaltstressthandiploid AT allariothierry citrustetraploidrootstocksaremoretoleranttosaltstressthandiploid AT costantinogilles citrustetraploidrootstocksaremoretoleranttosaltstressthandiploid AT andresfernando citrustetraploidrootstocksaremoretoleranttosaltstressthandiploid AT talonmanuel citrustetraploidrootstocksaremoretoleranttosaltstressthandiploid AT lurofrancois citrustetraploidrootstocksaremoretoleranttosaltstressthandiploid AT ollitraultpatrick citrustetraploidrootstocksaremoretoleranttosaltstressthandiploid AT morillonraphael citrustetraploidrootstocksaremoretoleranttosaltstressthandiploid |
| _version_ |
1758021871137193984 |