Stem Sensitivity and Ethylene Involvement in Phototropism of Mung Bean

Brennan, Thomas M.; Gunckel, James E.; Frenkél, Chaim

doi:10.1104/pp.57.2.286

Cited by 10 publications

(8 citation statements)

References 15 publications

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“…4) are in agreement with those of other dicot seedlings (2,8,11). These data support the conclusion that the hypocotyl itself contains the photoreceptor for its positive phototropic curvature in unilateral light since this response did not depend on directional information from the cotyledons, on their being in light or on any immediate supplies from them.…”

Section: Resultssupporting

confidence: 79%

Role of the Cotyledons in the Phototropic Response of Lavatera cretica Seedlings

Schwartz¹,

Koller²

1980

Plant Physiol.

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Young seedlgs of Lavatera cretwa L. exhibit positive phototropism.The hypocotyl perceives unilateral illumination with blue light and curves towards the light source by unequal growth. In addition, the cotyledonary laminas perceive the vectorial component of unilateral illumination with blue light and reorient normal to the beam by creating a turgor differential in their pulvini. Excision of one cotyledon resulted in negative organotropic curvature of the hypocotyl, away from the remaining cotyledon. Illumination of the cotyledonary lamina did not participate in the phototropic curvature of the hypocotyl, so long as the lamina was free to reorient to face the beam. When the lamina was continuously exposed to vectorial photoexcitation, elongation of the hypocotyl on the side carrying the cotyledon could be enhanced, or inhibited, depending on the direction of the beam striking its lamina. Mericarps of L. cretica L. were pretreated in 70% (v/v) H2SO4 for I h and then thoroughly washed in tap water and planted either in drained plastic cups (5 cm diameter) or in drained plastic flats containing a 1:1 (v/v) mix of basalt gravel and Vermiculite. The plants were irrigated every 1-2 days with nutrient solution. The plants were grown at 22 ± I C in daily cycles of 16 h light/8 h dark. Light was provided from above, by a bank of cool-white WS Gro-Lux fluorescent tubes (Sylvania), providing a photon fluence rate of 150 ,uE m 2 s-1 (400-700 nm) at plant level.Phototropic illumination was generally provided from a 500-w Quartzline lamp (General Electric) installed in a model No. 10 reflector housing fitted with a hot mirror in front and a cold mirror in the back (Dicrolite Co., Everett, Washington). Photon fluence rate was 150 ME m-2 s-1 (400-700 nm

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Section: Resultssupporting

confidence: 79%

Role of the Cotyledons in the Phototropic Response of Lavatera cretica Seedlings

Schwartz¹,

Koller²

1980

Plant Physiol.

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“…The removal ofthe leaves ofgreen sunflower seedlings suppressed the phototropic responsiveness by more than half (Shibaoka and Yamaki, 1959). When one of the primary leaves ofuniformly illuminated mung bean plants was masked, no measurable curvature of the epicotyl occurred, and the masking of both of the primary leaves only reduced the curvature of plants exposed to unilateral light by 25% (Brennan et al, 1976). However, the removal of either one or both of the primary leaves did prevent a phototropic response to the mung bean epicotyl.…”

mentioning

confidence: 93%

“…Removal of the shoot apex and immature leaves of the apical bud of Se/aginella had no effect upon the positive phototropic response ofthe horizontal stems. With mung bean (Phaseo/us aureus), masking the stem tip with an inert lanolin paste containing charcoal reduced the phototropic curvature of the stem by more than half and removal of the tip completely inhibited phototropic curvature (Brennan, Gunckel and Frenkel, 1976). On the other hand, removal of shoot apex had no effect upon the phototropic response of sunflower (Helianthus) hypocotyls (Bruinsma et al, 1975).…”

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confidence: 99%

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Phototropism of Selaginella: The Role of the Small Dorsal Leaves and Auxin

Bilderback

1984

American J of Botany

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The creeping dorsiventral stem of Selaginella kraussiana (Kunze) A. Braun has two rows of small leaves on the dorsal surface, two rows of large leaves laterally inserted and no leaves on the ventral surface. When the ventral surface of the stem is illuminated from below, the stem bends 147° below the horizon toward the light. Development of this positive phototropic response requires mature dorsal leaves at the stem tip but not the apical bud or the large lateral leaves. When the small dorsal leaves are replaced with lanolin containing the auxins, indoleacetic or naphthalene acetic acid, stem curvature occurs in the light and dark. Gibberellic acid and kinetin are unable to replace the small dorsal leaves. Auxin paste applied to the ventral illuminated surface of the stem will cause a negative phototropic curvature away from light. Illumination of the ventral surface of stem does not alter the amount of radioactive indoleacetic acid entering the stem from treated dorsal leaves but does increase the asymmetry in the distribution of radioactivity in the stem. Treatment of the small dorsal leaves with the auxin transport inhibitor, triiodobenzoic acid, inhibits the positive phototropic stem curvature.

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“…For dicotyledons this issue remains unclear, with some controversy in the literature. Although early research suggested that in dicotyledon species the phototropic stimulus is perceived primarily by the leaves and cotyledons (Shibaoka & Yamaki 1959; Lam & Leopold 1966), subsequent studies on de‐etiolated mung bean, cucumber and sunflower seedlings indicated that the primary zone of phototropic perception is the stem (Brennan, Gunckel & Frenkel 1976; Shuttleworth & Black 1977).…”

Section: Introductionmentioning

confidence: 99%

Electrophysiological localization of blue light sensory sites in etiolated dicotyledon seedlings

Babourina¹,

Newman²,

Shabala

2003

Plant Cell & Environment

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Changes induced by blue light (BL) in ion fluxes and pH in etiolated seedlings of dicotyledons ( Cucumis sativus L., Phaseolus lunatus L., Pisum sativum L.) were studied using a non-invasive ion-selective microelectrode technique (MIFE). BL induced significant Ca 2 + uptake within the first 5 min after onset in upper parts of the whole cucumber seedling. To locate the sites of the BL perception, studies on excised segments were performed. The data obtained demonstrated that the observed Ca 2 + uptake is associated with the very top of the hypocotyl hook of cucumber and butter bean, and with the whole epicotyl of pea, although the response was stronger for the upper parts of the epicotyl. Addition of Gd 3 + and La 3 + into the bathing solution completely prevented Ca 2 + influx, implicating the involvement of Ca 2 + channels in the regulation of Ca 2 + transport during BL exposure. BL-induced changes in H + and Ca 2 + fluxes were not likely to be linked to the one mechanism, as they were separated spatially and pharmacologically.

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Stem Sensitivity and Ethylene Involvement in Phototropism of Mung Bean

Cited by 10 publications

References 15 publications

Role of the Cotyledons in the Phototropic Response of Lavatera cretica Seedlings

Role of the Cotyledons in the Phototropic Response of Lavatera cretica Seedlings

Phototropism of Selaginella: The Role of the Small Dorsal Leaves and Auxin

Electrophysiological localization of blue light sensory sites in etiolated dicotyledon seedlings

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