- -

Hormonal Profile in Ovaries of Mandarin Varieties with Differing Reproductive Behaviour

RiuNet: Repositorio Institucional de la Universidad Politécnica de Valencia

Compartir/Enviar a

Citas

Estadísticas

  • Estadisticas de Uso

Hormonal Profile in Ovaries of Mandarin Varieties with Differing Reproductive Behaviour

Mostrar el registro completo del ítem

Bermejo, A.; Primo Millo, E.; Agustí Fonfría, M.; Mesejo Conejos, C.; Reig Valor, C.; Iglesias Fuente, DJ. (2015). Hormonal Profile in Ovaries of Mandarin Varieties with Differing Reproductive Behaviour. Journal of Plant Growth Regulation. 34(3):584-594. https://doi.org/10.1007/s00344-015-9492-y

Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10251/74447

Ficheros en el ítem

[Cerrado]
Nombre: Almudena Bermejo; ...
Tamaño: 1.480Mb
Formato: PDF
Descripción: Versión editorial
Solicitar una copia al autor

Metadatos del ítem

Título: Hormonal Profile in Ovaries of Mandarin Varieties with Differing Reproductive Behaviour
Autor: Bermejo, Almudena Primo Millo, Eduardo Agustí Fonfría, Manuel Mesejo Conejos, Carlos Reig Valor, Carmina Iglesias Fuente, Domingo José
Entidad UPV: Universitat Politècnica de València. Departamento de Producción Vegetal - Departament de Producció Vegetal
Fecha difusión:
Resumen:
The endogenous levels of 13 gibberellins (GAs), three cytokinins (CKs), abscisic acid (ABA), indole-3-acetic acid (IAA) and jasmonic acid (JA) were analyzed in naturally pollinated ovaries of three mandarin cultivars ...[+]
Palabras clave: Carbohydrates , Citrus ovaries , Cytokinins , Gibberellins , GA-oxidase genes , Indole-3-acetic acid
Derechos de uso: Cerrado
Fuente:
Journal of Plant Growth Regulation. (issn: 0721-7595 )
DOI: 10.1007/s00344-015-9492-y
Editorial:
Springer Verlag (Germany)
Versión del editor: https://dx.doi.org/10.1007/s00344-015-9492-y
Código del Proyecto:
info:eu-repo/grantAgreement/MINECO//RTA2011-00052-00-00 /
info:eu-repo/grantAgreement/MINECO//RTA2011-00114-00-00/
Agradecimientos:
We thank Drs. Isabel Lopez-Diaz and Esther Carrera for the hormone quantification carried out at the Plant Hormone Quantification Service, IBMCP, Valencia, Spain. This work has been supported by two research Projects, ...[+]
Tipo: Artículo

References

Ali-Dinar HM, Krezdorn AH, Wheaton TA (1988) The sexual-hormonal relation in citrus during fruit set. Acta Hortic 218:159–175

Ben-Cheikh W, Perez-Botella J, Tadeo FR, Talón M, Primo-Millo E (1997) Pollination increases gibberellin levels in developing ovaries of seeded varieties of citrus. Plant Physiol 114:557–564

Bermejo A, Pardo J, Cano A (2011) Influence of gamma irradiation on seedless citrus production: pollen germination and fruit quality. Food Nutr Sci 2:169–180 [+]
Ali-Dinar HM, Krezdorn AH, Wheaton TA (1988) The sexual-hormonal relation in citrus during fruit set. Acta Hortic 218:159–175

Ben-Cheikh W, Perez-Botella J, Tadeo FR, Talón M, Primo-Millo E (1997) Pollination increases gibberellin levels in developing ovaries of seeded varieties of citrus. Plant Physiol 114:557–564

Bermejo A, Pardo J, Cano A (2011) Influence of gamma irradiation on seedless citrus production: pollen germination and fruit quality. Food Nutr Sci 2:169–180

Brewbaker JL, Kwack BH (1963) The essential role of calcium ion in pollen germination and pollen tube growth. Am J Bot 50:859–865

Bustin SA (2002) Quantification of mRNA using real-time reversetranscription PCR (RT-PCR): trends and problems. J Mol Endocrinol 29:23–39

Castle WS, Phillips RL (1980) Performance of ‘Marsh’ grapefruit and ‘Valencia’ orange trees on eighteen rootstocks in close planting. J Am Soc Hortic Sci 105:496–499

De Jong M, Mariani C, Vriezen WH (2009) The role of auxin and gibberellin in tomato fruit set. J Exp Bot 60:1523–1532

Frost HB, Soost RK (1968) Seed reproduction: development of gametes and embryos. In: Reuther W, Batchelor LD, Webber HJ (eds) The citrus industry, vol 2. University of California, California, pp 290–320

Gambetta G, Gravina A, Fasiolo C, Fornero C, Galiger S, Inzaurralde C, Rey F (2013) Self-incompatibility, parthenocarpy and reduction of seed presence in “Afourer” mandarin. Sci Hortic 164:183–188

García-Martínez JL, García-Papi MA (1979) The influence of gibberellic acid, 2,4-dichlorophenoxyacetic acid and 6-benzylaminopurine on fruit set of Clementine mandarin. Sci Hortic 10:285–293

García-Papi MA, García-Martínez JL (1984) Endogenous plant growth substances content in young fruits of seeded and seedless Clementine mandarin as related to fruit set and development. Sci Hortic 22:265–274

Giacomelli L, Rota-Stabelli O, Masuero D, Acheampong AK, Moretto M, Caputi L, Vrhovsek U, Moser C (2013) Gibberellin metabolism in Vitis vinifera L. during bloom and fruit set: functional characterization and evolution of grapevine gibberellin oxidases. J Exp Bot 64:4403–4419

Goodstein DM, Shu S, Howson R, Neupane R, Hayes RD, Fazo J, Mitros T, Dirks W, Hellsten U, Putnam N, Rokhsar DS (2012) Phytozome: a comparative platform for green plant genomics. Nucleic Acid Research, 40 (Database issue): D1178–D1186

Goren R, Huberman M, Goldschmidt E (2003) Girdling: physiological and horticultural aspects. Hortic Rev 30:1–36

Hearn CJ (1986) Development of seedless grapefruit cultivars through budwood irradiation. J Am Soc Hort Sci 111:304–306

Hernandez-Miñana FM, Primo-Millo E (1989) Endogenous cytokinins in developing fruits of seeded and seedless Citrus cultivars. J Exp Bot 40:1127–1134

Hernandez-Miñana FM, Primo-Millo E (1990) Studies on endogenous cytokinins in Citrus. J Hort Sci 65:596–601

Huerta L, García-Lor A, García-Martínez JL (2009) Characterization of gibberellin 20-oxidases in the citrus hybrid Carrizo citrange. Tree Physiol 29:569–577

Iglesias DJ, Tadeo FR, Primo-Millo E, Talón M (2003) Fruit set dependence on carbohydrate availability in citrus trees. Tree Physiol 23:199–204

Ledbetter CA, Ramming DW (1989) Seedlessness in grapes. Hortic Rev 11:159–184

Mariotti L, Picciarelli P, Lombardi L, Ceccarelli N (2011) Fruit set and early fruit growth in tomato are associated with increases in indolacetic acid, cytokinin and bioactive gibberellin contents. J Plant Growth Reg. 30:405–415

Martí E, Carrera E, Ruiz-Rivero García-Martínez JL (2010) Hormonal regulation of tomato gibberellin 20-oxidase1 expressed in Arabidopsis. J Plant Physiol 167:1188–1196

Mehouachi J, Serna D, Zaragoza S, Agustí M, Talón M, Primo Millo E (1995) Defoliation increases fruit abscission and reduces carbohydrate levels in developing fruits and woody tissues of Citrus unshiu. Plant Sci 107:189–197

Mesejo C, Martínez-Fuentes A, Reig C, Rivas F, Agustí M (2006) The inhibitory effect of CuSO4 on citrus pollen germination and pollen tube growth and its application for the production of seedless fruit. Plant Sci 170:37–43

Mesejo C, Martínez-Fuentes A, Reig C, Agustí M (2008) Gibberellic acid impairs fertilization in Clementine mandarin under cross-pollination conditions. Plant Sci 175:267–271

Mesejo C, Yuste R, Martínez-Fuentes A, Reig C, Iglesias DJ, Primo-Millo E, Agustí M (2013) Self-pollination and parthenocarpic ability in developing ovaries of self-incompatible Clementine mandarins (C. clementina). Physiol Plant 148:87–96

Ollimpieri I, Siligato F, Caccia R, Mariotti L, Ceccarelli N, Soressi GP, Mazzucato A (2007) Tomato fruit set driven by pollination or by the parthenocarpic fruit allele are mediated by transcriptionally regulated gibberellin biosynthesis. Planta 226:877–888

Ortiz JM, Zaragoza S, Bono R (1988) The major citrus cultivars in Spain. HortScience 23:691–693

Ozga JA, Reinecke DM (2003) Hormonal interactions in fruit development. J Plant Growth Regul 22:73–81

Ozga JA, Reinecke DM, Ayele BT (2009) Developmental and hormonal regulation of gibberellin biosynthesis and catabolism in pea fruit. Plant Physiol 150:448–462

Powell AA, Krezdorn AH (1977) Influence of fruit-setting treatments on translocation of 14C-metabolites in citrus during flowering and fruiting. J Am Soc Hortic Sci 102:709–714

Rodrigo MJ, García-Martínez JL, Santes CM, Gaskin P, Hedden P (1997) The role of gibberellins A(1) and A(3) in fruit growth of Pisum sativum L. and the identification of gibberellins A(4) and A(7) in young seeds. Planta 201:446–455

Ruan YL, Patric JW, Bouzayen M, Osorio S, Fernie AR (2012) Molecular regulation of seed and fruit set. Trends Plant Sci 17:656–665

Santes CM, Hedden P, Gaskin P, García-Martínez JL (1995) Gibberellins and related compounds in young fruits of pea and their relationship to fruit set. Phytochemistry 40:1347–1355

Seo M, Jikumaru Y, Kamiya Y (2011) Profiling of hormones and related metabolites in seed dormancy and germination studies. Methods Mol Biol 773:99–111

Serrani JC, Sanjuán R, Ruiz-Rivero O, Fos M, García-Martínez JL (2007a) Gibberellin regulation of fruit set and growth in tomato. Plant Physiol 145:246–257

Serrani JC, Fos M, Atares A, García-Martínez JL (2007b) Effect of gibberellin and auxin on parthenocarpic fruit growth induction in the cv micro-torn of tomato. J Plant Growth Reg 26:211–221

Serrani JC, Ruiz-Rivero O, Fos M, García-Martínez JL (2008) Auxin induced fruit set in tomato is mediated in part by gibberellins. Plant J 56:922–934

Soost RK, Cameron JW (1980) “Oroblanco” a triploid pummel x grapefruit hybrid. HortScience 15:667–669

Spiegel-Roy P, Goldschmidt EE (1996) Biology of Citrus. Cambridge University Press, Cambridge, p 244

Talón M, Hedden P, Primo-Millo E (1990a) Gibberellins in Citrus sinensis: a comparison between seeded and seedless varieties. J Plant Growth Regul 9:201–206

Talón M, Zacarías L, Primo-Millo E (1990b) Hormonal changes associated with fruit set and development in mandarins differing in their parthenoarpic ability. Physiol Plant 79:400–406

Talón M, Zacarías L, Primo-Millo E (1992) Gibberellins and parthenocarpic ability in developing ovaries of seedless mandarins. Plant Physiol 99:1575–1581

Vardi A, Levin I, Carmi N (2008) Induction of seedlessness in citrus: from classical techniques to emerging biotechnological approaches. J Am Soc Hort Sci 133:117–126

Yamaguchi S (2008) Gibberellin metabolism and its regulation. Ann Rev Plant Biol 59:225–251

Yan J, Yuan F, Long G, Qin L, Deng Z (2012) Selection of reference genes for quantitative real-time RT-PCR analysis in citrus. Mol Biol Rep 39:1831–1838

Ye W, Qin Z, Ye J, Teixeira da Silva A, Zhang L, Wu X, Lin S, Hu G (2009) Seedless mechanism of a new mandarin cultivar “Wuzishatangju” (Citrus reticulata Blanco). Plant Sci 177:19–27

Zacarías L, Talón M, Ben-Cheikh W, Lafuente MT, Primo-Millo E (1995) Abscisic acid increases in non-growing and paclobutrazol-treated fruits of seedless mandarins. Physiol Plant 95:613–619

[-]

recommendations

 

Este ítem aparece en la(s) siguiente(s) colección(ones)

Mostrar el registro completo del ítem