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The source of gibberellins in the parthenocarpic development of ovaries on topped pea plants (1988)

Peretó, J. G. ; Beltrán, J. P. ; García-Martínez, J. L.

Springer

Planta 175 (1988), S. 493-499

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ISSN: 1432-2048

Keywords: Fruit set and growth (pea) ; Gibberellin biosynthesis (inhibitor) ; Gibberellin and fruit development ; Pisum (fruit development, topping)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The role and source of gibberellins (GAs) involved in the development of parthenocarpic fruits of Pisum sativum L. has been investigated. Gibberellins applied to the leaf adjacent to an emasculated ovary induced parthenocarpic fruit development on intact plants. The application of gibberellic acid (GA3) had to be done within 1 d of anthesis to be fully effective and the response was concentration-dependent. Gibberellin A1 and GA3 worked equally well and GA20 was less efficient. [3H]Gibberellin A1 applied to the leaf accumulated in the ovary and the accumulation was related to the growth response. These experiments show that GA applied to the leaf in high enough concentration is translocated to the ovary. Emasculated ovaries on decapitated pea plants develop without application of growth hormones. When [3H] GA1 was applied to the leaf adjacent to the ovary a substantial amount of radioactivity accumulated in the growing shoot of intact plants. In decapitated plants, however, this radioactivity was mainly found in the ovary. There it caused growth proportional to the accumulation of CA1. Application of LAB 150978, an inhibitor of GA biosynthesis, to decapitated plants inhibited parthenocarpic fruit development and this inhibition was counteracted by the application of GA3 (either to the fruit, or the leaf adjacent to the ovary, or through the lower cut end of the stem). All evidence taken together supports the view that parthenocarpic pea fruit development on topped plants depends on the import of gibberellins or their precursors, probably from the vegetative aerial parts of the plant.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00393070

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Gibberellins in developing fruits of Pisum sativum cv. Alaska: Studies on their role in pod growth and seed development (1987)

Garcia-Martinez, J. L. ; Sponsel, V. M. ; Gaskin, P.

Springer

Planta 170 (1987), S. 130-137

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ISSN: 1432-2048

Keywords: Fruit-set and growth ; Gibberellin and fruit and seed development ; Inhibitor (of gibberellin biosynthesis) ; Pisum (fruit, seed development) ; Seed development

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Gibberellins A1, A8, A20 and A29 were identified by capillary gas chromatography-mass spectrometry in the pods and seeds from 5-d-old pollinated ovaries of pea (Pisum sativum cv. Alaska). These gibberellins were also identified in 4-d-old non-developing, parthenocarpic and pollinated ovaries. The level of gibberellin A1 within these ovary types was correlated with pod size. Gibberellin A1, applied to emasculated ovaries cultured in vitro, was three to five times more active than gibberellin A20. Using pollinated ovary explants cultured in vitro, the effects of inhibitors of gibberellin biosynthesis on pod growth and seed development were examined. The inhibitors retarded pod growth during the first 7 d after anthesis, and this inhibition was reversed by simultaneous application of gibberellin A3. In contrast, the inhibitors, when supplied to 4-d-old pollinated ovaries for 16 d, had little effect on seed fresh weight although they reduced the levels of endogenous gibberellins A20 and A29 in the enlarging seeds to almost zero. Paclobutrazol, which was one of the inhibitors used, is xylem-mobile and it efficiently reduced the level of seed gibberellins without being taken up into the seed. In intact fruits the pod may therefore be a source of precursors for gibberellin biosynthesis in the seed. Overall, the results indicate that gibberellin A1, present in parthenocarpic and pollinated fruits early in development, regulates pod growth. In contrast the high levels of gibberellins A20 and A29, which accumulate during seed enlargement, appear to be unnecessary for normal seed development or for subsequent germination.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00392389

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