Your search keyword '"De Pasquale F"' showing total 8 results

1. Genetic instability in calamondin (Citrus madurensis Lour.) plants derived from somatic embryogenesis induced by diphenylurea derivatives.

Author

Siragusa M, Carra A, Salvia L, Puglia AM, De Pasquale F, and Carimi F

Subjects

Carbanilides chemistry, Citrus embryology, Culture Media chemistry, Gene Expression Regulation, Plant, Tissue Culture Techniques, Carbanilides pharmacology, Citrus drug effects, Citrus genetics, Mutagenesis drug effects, Polymorphism, Genetic genetics

Abstract

Somatic embryos were regenerated in vitro from calamondin style-stigma explants cultured in the presence of N (6)-benzylaminopurine (BAP) cytokinin and three synthetic phenylurea derivatives, N-(2-chloro-4-pyridyl)-N-phenylurea (4-CPPU), N-phenyl-N'-benzothiazol-6-ylurea (PBU) and N,N'-bis-(2,3-methilendioxyphenyl)urea (2,3-MDPU). The phenylurea derivative compounds tested at micromolar level (12 muM) were able to induce a percentage of responsive explants significantly higher from that obtained with BAP and hormone-free (HF) conditions. In order to verify the genetic stability of the regenerants, 27 plants coming from different embryogenic events were randomly selected from each different culture condition and evaluated for somaclonal variations using inter-simple sequence repeat and random amplified polymorphic DNA analyses. We observed that 2,3-MDPU and PBU gave 3.7% of somaclonal mutants, whereas 4-CPPU gave 7.4% of mutants. No somaclonal variability was observed when plantlets were regenerated in BAP or HF medium. Although diphenylurea derivatives show a higher embryogenic potential as compared to BAP, they induce higher levels of somaclonal variability. This finding should be taken in consideration when new protocols for clonal propagation are being developed.

Published

2007

2. Zygotic and nucellar embryo survival following dehydration and cryopreservation of citrus intact seeds.

Author

Lambardi M, De Carlo A, Biricolti S, Puglia AM, Lombardo G, Siragusa M, and De Pasquale F

Subjects

Citrus sinensis embryology, Desiccation, Germination, Polymerase Chain Reaction, Citrus embryology, Cryopreservation, Seeds

Abstract

A cryopreservation procedure by dehydration and direct immersion in liquid nitrogen was developed for seeds of four polyembryonic Citrus species, and the sexual or nucellar origin of the recovered seedlings was investigated. Seeds of three species could be desiccated in a sterile air flow to 16 percent (C. sinensis) or 10 percent (C. aurantium and C. limon) moisture content with a negligible reduction in germination levels. Differently, the germinability of C. deliciosa seeds dropped to 50 percent after drying to 15 percent moisture content. Following dehydration treatments, a reduction in the average number of seedlings per germinated seed was always observed. However, all four species benefited from desiccation in terms of protection during immersion in liquid nitrogen, with C. sinensis and C. aurantium showing the greatest survival (93 percent germination) after cryopreservation. The Inter-Simple Sequence Repeat analysis of seedlings recovered from cryopreserved seeds showed that the dehydration/cryopreservation procedure promotes the germination of zygotic embryos and reduces the number of apomictic seedlings per seed.

Published

2004

3. Zygotic And Nucellar Embryo Survival Following Dehydration/Cryopreservationof Citrus Intact Seeds

Author

Lambardi M., De Carlo A., Biricolti S., Puglia A.M., Lombardo G., Siragusa M., and De Pasquale F.

Subjects

food and beverages, Citrus, dehydration, nucellar embryos, cryopreservation, seed

Abstract

A cryopreservation procedure by dehydration and direct immersion in liquid nitrogen was developed for seeds of four polyembryonic Citrus species, and the sexual or nucellar origin of the recovered seedlings was investigated. Seeds of three species could be desiccated in a sterile air flow to 16% (C. sinensis) or 10% (C. aurantium and C. limon) moisture content with a negligible reduction in germination levels. Differently, the germinability of C. deliciosa seeds dropped to 50% after drying to 15% moisture content. Following dehydration treatments, a reduction in the average number of seedlings per germinated seed was always observed. However, all four species benefited from desiccation in terms of protection during immersion in liquid nitrogen, with C. sinensis and C. aurantium showing the greatest survival (93% germination) after cryopreservation. The Inter-Simple Sequence Repeat analysis of seedlings recovered from cryopreserved seeds showed that the dehydration/cryopreservation procedure promotes the germination of zygotic embryos and reduces the number of apomictic seedlings per seed.

Published

2004

4. Cryopreservation of Citrus seeds by dehydration and direct immersion into liquid nitrogen

Author

Lambardi M., De Carlo A., Lombardo G., Biricolti S., and De Pasquale F.

Subjects

Citrus, germplasm preservation, seeds, cryopreservation

Published

2002

5. Conservation strategies of citrus germplasm: in vitro and in vivo

Author

Carimi F, De Pasquale F, and D'Onghia AM

Subjects

Citrus, Germplasm, Regeneration, Disease, Conservation, In vitro culture

Abstract

Conservation of citrus genetic resources needs an integrated in situ and e x situ approach. In view of preventing dissemination of diseases, it is necessary to resort to ex situ conservation for maintenance of clean material, whereas reinfection may be avoided by using in vivo and in vitro conservation. Following specific guidelines, the collection field fulfilling specific requirements or the insect-proof screenhouse can ensure in vivo conservation of a healthy gene pool as well as pomological traits. For several species, in vitro culture may play a major role as a conservation strategy or even be the only option available. Despite their several advantages, in vitro techniques still display considerable constraints such as genetic instability and length of tissue storage.

Published

2001

6. Elimination of citrus psorosis virus by somatic embryogenesis from stigma and style cultures

Author

D'Onghia AM, Carimi F, De Pasquale F, Djelouah K, and Martelli GP

Subjects

Citrus, Stigma, Serology, Embryogenic callus, food and beverages, ELISA, Citrus psorosis virus, Somatic embryos, Style

Abstract

Somatic embryogenesis was used to eliminate Citrus psorosis virus (CPsV) from three citrus species (common mandarin, sweet orange and Dweet tangor), all of which regenerated somatic embryos with different embryogenic potential from stigma and style explants. CPsV was detected by double antibody sandwich-indirect-enzyme-linked immunosorbent assay (DASI-ELISA) in explants and embryogenic callus, but was not detested in any of the. plants obtained from somatic embryos, even 24 months after regeneration. Loss of juvenile characters (disappearance of thorns) was observed in the first year of growth and was retained in plants propagated by grafting from thornless stems. Somatic embryogenesis appears to be a very promising technique for the production of healthy citrus stocks.

Published

2001

7. Elimination of Citrus psorosis virus by somatic embryogenesis from stigma and style cultures.

Author

D'Onghia, A.M., Carimi, F., De Pasquale, F., Djelouah, K., and Martelli, G.P.

Subjects

CITRUS, SOMATIC embryogenesis, DISEASE resistance of plants

Abstract

Studies the elimination of Citrus psorosis virus (CPV) by somatic embryogenesis from stigma and style cultures. CPV detection; Loss of juvenile characters in the first year of growth; Germination of somatic embryos; Potential of somatic embryogenesis as a technique for the production of health citrus stocks.

Published

2001

8. Genetic instability in calamondin (Citrus madurensis Lour.) plants derived from somatic embryogenesis induced by diphenylurea derivative

Author

Lidia Salvia, Angela Carra, Mirko Siragusa, Anna Maria Puglia, Francesco Carimi, Fabio De Pasquale, SIRAGUSA M, CARRA A, SALVIA L, PUGLIA AM, DE PASQUALE F, and CARIMI F

Subjects

Citrus, Somatic embryogenesis, Mutant, Plant Science, Biology, Genetic polymorphisms, Somaclonal variation, Tissue Culture Techniques, chemistry.chemical_compound, Gene Expression Regulation, Plant, Botany, genetic polymorphism, molecular marker, Polymorphism, Genetic, Molecular markers, General Medicine, Somaclonal variability, biology.organism_classification, Molecular biology, In vitro, Culture Media, Rutaceae, chemistry, Mutagenesis, Cytokinin, mutation, Agronomy and Crop Science, Carbanilides, DNA, Mutations, Explant culture, Plant regeneration

Abstract

Somatic embryos were regenerated in vitro from calamondin style-stigma explants cultured in the presence of N (6)-benzylaminopurine (BAP) cytokinin and three synthetic phenylurea derivatives, N-(2-chloro-4-pyridyl)-N-phenylurea (4-CPPU), N-phenyl-N'-benzothiazol-6-ylurea (PBU) and N,N'-bis-(2,3-methilendioxyphenyl)urea (2,3-MDPU). The phenylurea derivative compounds tested at micromolar level (12 muM) were able to induce a percentage of responsive explants significantly higher from that obtained with BAP and hormone-free (HF) conditions. In order to verify the genetic stability of the regenerants, 27 plants coming from different embryogenic events were randomly selected from each different culture condition and evaluated for somaclonal variations using inter-simple sequence repeat and random amplified polymorphic DNA analyses. We observed that 2,3-MDPU and PBU gave 3.7% of somaclonal mutants, whereas 4-CPPU gave 7.4% of mutants. No somaclonal variability was observed when plantlets were regenerated in BAP or HF medium. Although diphenylurea derivatives show a higher embryogenic potential as compared to BAP, they induce higher levels of somaclonal variability. This finding should be taken in consideration when new protocols for clonal propagation are being developed.

Published

2007