Use of an Acylcyclohexanedione Growth Retardant, LAB 198 999, to Determine Whether Gibberellin A20 Has Biological Activity per se in Dark-Grown Dwarf (le5839) Seedlings of Pisum sativum

Sponsel, Valerie M.; Reid, James B.

doi:10.1104/pp.100.2.651

Cited by 6 publications

(3 citation statements)

References 14 publications

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“…This inhibition is thought to be due to competitive interaction with 2-oxoglutarate because of its close structural similarity to the inhibitors (Griggs et al, 1991). ACHD compounds have been used in application experiments to test the activity per se of different GAs (Junttila et al, 1991;Kamiya et al, 1991;Martínez-García and García-Martínez, 1992;Sponsel and Reid 1992a;Zeevaart et al, 1993). The results have shown the importance of 3P-hydroxylation as an activation step and confirmed GA, as the primary active GA, particularly in stem elongation, as found previously with GA metabolic mutants (Phinney, 1984).…”

supporting

confidence: 52%

Effect of the Growth Retardant 3,5-Dioxo-4-butyryl-cyclohexane Carboxylic Acid Ethyl Ester, an Acylcyclohexanedione Compound, on Fruit Growth and Gibberellin Content of Pollinated and Unpollinated Ovaries in Pea

Santes¹,

Garcı́a-Martı́nez²

1995

Plant Physiol.

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Treatment of pollinated pea (Pisum sativum L. cv Alaska, line V1) ovaries with 3,5-dioxo-4-butyryl-cyclohexane carboxylic acid ethyl ester (LAB), an acylcyclohexanedione derivative that competitively inhibits 2-oxoglutarate-dependent gibberellin (CA) dioxygenases, caused a reduction of pod elongation proportional to the amount of inhibitor applied. The effect of LAB was counteracted by CA, and CA,, and partially by CA,,. The inhibitor decreased the contents of CA, and CA, (the purported active GAs) and CA,, increased those of CA,, and CAZ0, and did not affect that of CA,, in both the pod and the developing seeds. These results provide evidence that CA, and/or CA, control pod development in pea and show that CA,, is not active per se. In contrast to its effect on pollinated ovaries, LAB promoted parthenocarpic development of unpollinated ovaries, which is associated with an increase of GA, and CA, content. The inhibitor enhanced the response of unpollinated ovaries to CA, and CA,,, but it did not alter the response to CA,. LAB is proposed to promote parthenocarpic development and enhance the response to exogenous CAs by blocking the 2p-hydroxylation of CA, more efficiently than 3p-hydroxylation of CA,,.Evidence showing the importance of GAs in controlling fruit set and pod development in pea (Pisum sativum L.) has been previously reported. First, exogenous applications of GA,, GA,, and GA,, to unpollinated ovaries (García-Martínez and Carbonell, 1980; García-Martínez et al., 1987) and to pollinated ovaries with killed seeds (Eeuwens and Schwabe, 1975;Sponsel, 1982) produce parthenocarpic fruits similar to those obtained after pollination. Second, different inhibitors of GA biosynthesis (e.g. AMO 1618, ancymidol, LAB) are able to retard the growth of pollinated ovaries, an effect that is reversed by simultaneom applica-' Supported by the Dirección General de Investigación Cientí-fica y Técnica (grants PB90-0151 and PB93-0133) and Ministerio de Educación y Ciencia (scholarship to C.M.S.).Present address: Department of Botany, University of California, Davis, CA 95616.* Corresponding author; e-mail jlgarcia@samba.cnb.uam.es; fax 34 -6 -3877859. 51 7 tion of GAs (García-Martínez et al., 1987;Sponsel and Reid, 1992b). Third, a positive correlation between the endogenous contents of GA, and GA, in pollinated ovaries of pea cv Alaska and the time of rapid pod elongation has been found (García-Martínez et al., 1991b). The developing seeds have been proposed to be a source of GAs for the elongating pod in pea (Eeuwens and Schwabe, 1975; García-Martínez and Carbonell, 1980;Sponsel, 1982;García-Martínez et al., 1991a, 1991b.Many growth retardants are known to act early in the GA biosynthetic pathway by inhibiting ent-kaurene synthetase (e.g. AMO 1618) or ent-kaurene oxidase (e.g. triazol compounds) (Graebe, 1987; Grossmann, 1990). Recently, a new class of compounds, derivatives of ACHD, has been described to inhibit the late stages of GA biosynthesis (Nakayama et al., 1990a;Rademacher et al., 1992), which are catalyzed by ...

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supporting

confidence: 52%

Effect of the Growth Retardant 3,5-Dioxo-4-butyryl-cyclohexane Carboxylic Acid Ethyl Ester, an Acylcyclohexanedione Compound, on Fruit Growth and Gibberellin Content of Pollinated and Unpollinated Ovaries in Pea

Santes¹,

Garcı́a-Martı́nez²

1995

Plant Physiol.

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“…(iii) The levels of GA1 and GA8 were lowered by BX-112 while the earlier precursors (GA53, GA44, GA19, and GA20) increased (Table 2). Thus, as was found in studies with rice (13,17,18), wheat (12), pea (19), and Salix (20), the main effect of BX-112 and other acylcyclohexanediones is inhibition of the 3f3-hydroxylation step of GA20 to GA1. This step is also blocked in dwarf mutants of several species: dl in maize (1), le in pea (10), dy in rice (11), and ga4 inArabidopsis (21).…”

Section: Resultsmentioning

confidence: 67%

Gibberellin A1 is required for stem elongation in spinach.

Zeevaart

Gage

Talón

1993

Proc. Natl. Acad. Sci. U.S.A.

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The effects of the growth retardants 2'-isopropyl-4'-(trimethylammonium chloride)-5'-methylphenyl piperidine-l-carboxylate (AMO-1618) and calcium 3,5-dioxo-4-propionylcyclohexanecarboxylate (BX-112) on stem elongation were investigated in the rosette plant spinach (Spinacia oleracea L.) under long-day (LD) conditions. Stem growth induced by a LD treatment was prevented by both retardants. The inhibition caused by AMO-1618 was reversed by gibberelmin A1 (GA,) and GA20, whereas the effects of BX-112 were reversed by GA, only. Six GAs (GAs3, GAM4, GA19, GA20, GA1, and GA8) were quantified by gas chromatography-selected ion monitoring using internal standards. Plants treated with BX-112 had reduced levels of GA, and GA8 and accumulated GA53, GA", GA19, and GA20. The relative levels of four additional GAs (3-epi-GA1, GA29, GA60, and GA81) were compared by ion intensities only. Relative to GA81, the level of GA29 was decreased by BX-112, whereas the levels of GA60 and 3-epi-GA1 were increased. Transfer of spinach from short-day conditions to LD conditions caused an increase in all identified GAs of the early 13-hydroxylation pathway with GA20, GA1, and GA8 showing the largest increases. These rmdings support the position that, of the GAs belonging to the early 13-hydroxylation pathway, GA1 is the primary GA activeperse for stem elongation in spinach. The increase in endogenous GA1 in plants in LD conditions is most likely the primary factor for stem elongation.

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“…Light‐induced de‐etiolation involves photomorphogenic changes of the above‐mentioned characteristics, particularly a reduction of the stem elongation rate. Results of early application of GA biosynthesis inhibitors indicate that GAs are also necessary for stem elongation of dark‐grown plants (Kende and Lang 1964; Reid 1983; Sponsel and Reid 1992). The role of GAs in dark‐grown plants, however, has been a matter of controversy (Reid 1988).…”

Section: Introductionmentioning

confidence: 99%

Light regulation of gibberellin A₁ content and expression of genes coding for GA 20‐oxidase and GA 3β‐hydroxylase in etiolated pea seedlings

Gil

Garcı́a-Martı́nez

2000

Physiologia Plantarum

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with GA 1 before WL irradiation, probably as a result of White light (WL) inhibited the stem elongation of etiolated pea (Pisum sati7um L.) seedlings and the inhibition was partially negative feed-back regulation. The effect of WL on GA 20-oxidase transcripts was mainly localized in the apex (hook) reversed by the application of gibberellin A 1 (GA 1 ), the active GA in shoot growth. The amount of GA 1 in the apical shoot whereas the effect on GA 3-hydroxylase transcripts was was reduced to about 25% after 2 h of WL, and to a trace level mainly localized in the subapical tissues. Red and far-red light after 4 h. The effect of light on GA 1 content was reversed when also enhanced the GA 20-oxidase transcript level, but not that of GA 3-hydroxylase, suggesting that different photorecep-the plants were transferred again to the dark after 6 h of WL. The effect of light on the expression of GA 20-oxidase and GA tors are involved in the regulation of these genes by WL. The results presented indicate that the inhibition of stem elongation 3-hydroxylase genes, coding for the last steps of GA 1 biosynthesis, was also investigated. Contrary to expectations, the by light is due, at least partially, to a decrease of GA 1 content by a still unknown mechanism. The increase of GA 8 upon WL amounts of GA 20-oxidase and GA 3-hydroxylase transcripts increased in the entire apical shoot of WL-irradiated irradiation raises the possibility that an inactivation activity may be involved in the control of the content of GA 1 by light. seedlings, and this increase was negated in seedlings treated characteristics, particularly a reduction of the stem elongation rate. Results of early application of GA biosynthesis inhibitors indicate that GAs are also necessary for stem elongation of dark-grown plants (Kende

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Use of an Acylcyclohexanedione Growth Retardant, LAB 198 999, to Determine Whether Gibberellin A₂₀ Has Biological Activity per se in Dark-Grown Dwarf (le⁵⁸³⁹) Seedlings of Pisum sativum

Cited by 6 publications

References 14 publications

Effect of the Growth Retardant 3,5-Dioxo-4-butyryl-cyclohexane Carboxylic Acid Ethyl Ester, an Acylcyclohexanedione Compound, on Fruit Growth and Gibberellin Content of Pollinated and Unpollinated Ovaries in Pea

Effect of the Growth Retardant 3,5-Dioxo-4-butyryl-cyclohexane Carboxylic Acid Ethyl Ester, an Acylcyclohexanedione Compound, on Fruit Growth and Gibberellin Content of Pollinated and Unpollinated Ovaries in Pea

Gibberellin A1 is required for stem elongation in spinach.

Light regulation of gibberellin A₁ content and expression of genes coding for GA 20‐oxidase and GA 3β‐hydroxylase in etiolated pea seedlings

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Use of an Acylcyclohexanedione Growth Retardant, LAB 198 999, to Determine Whether Gibberellin A20 Has Biological Activity per se in Dark-Grown Dwarf (le5839) Seedlings of Pisum sativum

Cited by 6 publications

References 14 publications

Effect of the Growth Retardant 3,5-Dioxo-4-butyryl-cyclohexane Carboxylic Acid Ethyl Ester, an Acylcyclohexanedione Compound, on Fruit Growth and Gibberellin Content of Pollinated and Unpollinated Ovaries in Pea

Effect of the Growth Retardant 3,5-Dioxo-4-butyryl-cyclohexane Carboxylic Acid Ethyl Ester, an Acylcyclohexanedione Compound, on Fruit Growth and Gibberellin Content of Pollinated and Unpollinated Ovaries in Pea

Gibberellin A1 is required for stem elongation in spinach.

Light regulation of gibberellin A1 content and expression of genes coding for GA 20‐oxidase and GA 3β‐hydroxylase in etiolated pea seedlings

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Use of an Acylcyclohexanedione Growth Retardant, LAB 198 999, to Determine Whether Gibberellin A₂₀ Has Biological Activity per se in Dark-Grown Dwarf (le⁵⁸³⁹) Seedlings of Pisum sativum

Light regulation of gibberellin A₁ content and expression of genes coding for GA 20‐oxidase and GA 3β‐hydroxylase in etiolated pea seedlings