Plant growth retardants as inhibitors of sterol biosynthesis in tobacco seedlings

Three plant-growth retardants 2′-isopropy1-4′-(trimethylammonium chloride)-5-methylphenylpiperidine carboxylate (Amo 1618), β-chloroethyltrimethylammonium chloride, and tributyl-2, 4-dichlorobenzylphosphonium chloride were tested for their effects on sterol production in, and growth of tobacco (Nicotiana tabacum) seedlings. As the concentration of each retardant increased, there was an increased inhibition of the incorporation of dl-2-¹⁴C-mevalonic acid into sterol (particularly desmethylsterol) fractions and an increased retardation of stem growth. Growth retardation was observed with both single and repeated retardant treatments, and with Amo 1618, in particular, a close quantitative relationship between inhibition of sterol biosynthesis and stem growth was obtained. Gibberellic acid completely overcame retardant effects and application of sterols also restored normal growth. It is concluded that the concept of causality in the relationship between growth retardation and gibberellin biosynthesis is probably premature, since growth retardants have a more general inhibitory action on isoprenoid biosynthesis in plants.     

Amo 1618 effects on incorporation of 14C-MVA and 14C-acetate into sterols in Nicotiana and Digitalis seedlings and cell-free preparations from Nicotiana

Incorporation of radioactivity from acetate-[¹⁴C] and MVA-[¹⁴C] into sterols and sterol precursors in tobacco was inhibited by Amo 1618; differing patterns of accumulation were obtained with the two precursors, suggesting more than one point of inhibition. This was borne out with cell-free preparations with which it was demonstrated that both HMG-CoA reductase and squalene-2,3-epoxide cyclase were inhibited, the latter more strongly than the former. GLC analysis of gross sterol and hydrocarbon fractions confirmed previous indications that incorporation of radioactivity into individual sterols was inhibited by Amo 1618. Finally, incorporation of MVA-[¹⁴C] into sterols and sterol precursors of Digitalis was significantly altered by the retardant, thus expanding the generality of the relationship between sterol (particularly 4-desmethylsterol) biosynthesis inhibition and retardant effect.     

Inhibition of Sterol Biosynthesis and Stem Elongation of Tobacco Seedlings Induced by Some Hypocholesterolemic Agents

Incorporation of DL-[2-¹⁴C]mevalonic acid ([2-¹⁴C]MVA) into4-desmethylsterols in Nicotiana tabacum cv. Turkish Samson seedlingswas inhibited by SK&F 7997-A₃,¹ SK&F 7732-A₃, AY 9944,and the plant growth retardant, Amo 1618. Reductions in 4-desmethylsterol levels resulted from treatmentwith AY 9944 and Amo 1618, but not the SK&F compounds. Amo1618 and SK&F 7997-A₃ both significantly reduced the specificactivity of each of the four major 4-desmethylsterols examined.Although SK&F 7732-A₃ reduced the specific activity of campesterol,and AY 9944 reduced the specific activity of stigmasterol, neitherhad an effect on the specific activity of ß-sitosterol. Stem elongation of tobacco seedlings was retarded by SK&F7997-A₃, AY 9944, and SK&F 7732-A₃, particularly the former,and the retarded plants thus produced were morphologically indistinguishablefrom the Amo 1618-treated plants. Application of exogenous stigmasterol,or GA₃, to the chemically-retarded plants resulted in a reversalof stem growth retardation.     

Effetti Morfologici,Anatomici Ed Ultrastrutturali Indotti Dai Ritardanti Di Crescita Su Plantule Di Pisum Sativum L. Var. « Gloria Di Quimper » Cultivate in Soluzione Nutritizia

Abstract

The effect of the growth retardants on the structure of Pea seedlings coltured in nutritive solution. – The addition of CCC (2-Chloro-ethyltrimethyl ammonium chloride) and AMO 1618 (4-Hydroxyl-5-isopropyl-2 methyl-phenyl-trimethylammonium chloride. 1-piperidine carboxylate) to Pea seedlings (Pisum sativum L. var. Gloria di Quimper) promotes the usual modifications induced by growth retardants on higher plants. CCC appears less effective than AMO 1618; CCC inhibits growth only at 10²-M. concentration, on the contrary 5×10-⁵M. AMO 1618 inhibits strongly the growth of the seedlings both in the light and in darkness. CCC and AMO 1618 operate similarly as far as the inhibition of expansion growth, the increase of the stem diameter, and the decrease of the apical dominance are concerned. 10-²M. CCC stimulates both the growth of roots and the secondary roots formation, on the contrary 2,5×10-⁴M. AMO 1618 inhibits strongly the growth of the roots. AMO 1618 affects more strongly than CCC the expantion growth of the leaves. Leaves of the AMO 1618 treated plants are greener than the control plants. Plants treated with CCC and AMO 1618 are smaller because these chemicals inhibit the expantion growth of the cells. The increase of the stem diameter induced by CCC and AMO 1618 is due to the stimulation of the mitotic activity of the cambium. AMO and CCC induce a decrease of the size of the vessels and the sieve tubes. In the sieve tubes of the treated plants and slime plugs appear near to the sieve plates many slime bodies. AMO and CCC did not affect the mitotic activity of the apical meristems; in fact the plants grown in the presence of the growth retardants, show a normal primary body. AMO and CCC delay the lignification process. Chloroplasts of this Pisum sativum variety show prolamellary bodies associated to a good lamellar system. Starch granules are always present. Starch was never found in the chloroplasts of the treated plants. The general picture of the effects induced by growth retardants in Pea seedlings show so many modifications that it is very difficult to believe, like some Authors suggest, that all the effects produced by growth retardants are due to the inhibition of gibberellin biosynthesis.     

SHOOT HISTOGENESIS: SUBAPICAL MERISTEMATIC ACTIVITY IN A CAULESCENT PLANT AND THE ACTION OF GIBBERELLIC ACID AND AMO-1618

Sachs , R. M., A. Lang , C. F. Bretz and Joan Roach . (U. California, Los Angeles.) Shoot histogenesis: subapical meristematic activity in a caulescent plant and the action of gibberellic acid and Amo—1618. Amer. Jour. Bot. 47(4): 260—266. Illus. 1960.–Studies on gibbereilininduced stem formation in rosette plants (Sachs et al., 1959) have shown that a zone of intensive meristematic activity, arising below the existing apical meristem, is almost solely responsible for stem histogenesis, i.e., the formation of the cells constituting the elongate stem. An extensive subapical zone of meristematic activity is also present in caulescent plants, such as Chrysanthemum morifolium, Amo-1618 ([4-hydroxy-5 isopropyl-2 methylphenyl] trimethylammonium chloride, 1-piperidine carboxylate) completely inhibits subapical meristematic activity in chrysanthemum, causing the plants to assume a dwarfed, rosette-like habit of growth. Gibberellic acid, applied either simultaneously, or following the Amo—1618 treatment, completely prevents or reverses the effect of Amo—1618, making the plants retain or resume their normal growth habit. Amo—1618 and gibberellic acid have relatively little effect upon the activity of the apical meristem of Chrysanthemum. Thus, while the apical meristem proper (eu- or promeristem) is the site of shoot organization and the ultimate source of the cells of the entire shoot, the subapical zone of division, termed the subapical meristem, is largely responsible for stem histogenesis in caulescent as well as in rosette plants. Gibberellins, or native, gibberellin-like substances appear to regulate the activity of the subapical meristem and thus to play an important role in shoot development. Amo—1618 and related compounds seem to exert their dwarfing effect in plants by acting as antagonists of gibberellins, at least with respect to the latters' function in regulating the subapical meristematic activity in the shoot.     

Effects of AMO-1618 on Growth, Morphology, and Gibberellin Content of Phaseolus Cocineus Seedlings

A study was made of the effects of AMO-1618 on the endogenousgibberellin (GA) levels and stem, leaf, and root growth of Phaseoluscoccineus seedlings. The data establishes that some of the effectsof AMO-1618 on the growth of Phaseolus seedlings are mediatedby factors other than an inhibition of GA biosynthesis.     

Action du CCC et de l'Amo 1618 sur la germination,la croissance et les activités AIA-oxydasique,peroxydasique, catalasique in vitro et in vivo de la racine de la Lentille

Summary Amo 1618 inhibits germination and root growth of Lentil seedlings in the dark and in the light, with some symptoms of toxicity; CCC has no effect.Both CCC and Amo 1618 inhibit the catalase activity of a lentil root extract.Increasing concentrations of Amo 1618 progressively increase the activity of peroxidase and IAA-oxidase in vivo; the catalase activity remains unchanged.The effect of Amo 1618 on root growth can thus be explained by a diminished auxin level mediated by an increased auxin catabolism.The effect of Amo 1618 and that of kinetin on root growth and enzymes are parallet. Gibberellic acid has an opposite effect on auxin catabolism.

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Une partie de ce travail a fait l'objet du mémoire de Licence de J. L. et a été réalisée au Laboratoire de Biochimie végétale de l'Institut de Botanique de Liège.     

Effects of AMO-1618 and B-995 on Growth and Endogenous Gibberellin Content of Cupressus arizonica seedlings

Soil drenches of 250, 500 or 1000 mg/l of the growth retardants AMO-1618 or B-995 effectively reduced dry matter production and stem elongation in young seedlings of Cupressus arizonica Greene. In seedlings treated with AMO-1618, the acidic, ethyl acetate-soluble gibberellin-like substances (GAs), as detected. by bioassay, were reduced to almost undetectable levels. However, the endogenous GA content in seedlings treated with B-995 were at least 11-fold greater than in control seedlings and differed as well in chromatographic characteristics, being of a more polar nature than the endogenous GAs of control seedlings. It was concluded that while AMO-1618 probably acts through interference with GA biosynthesis, B-995 may act through the interconversion of GAs.     

The Effect of CCC and Amo-1618 on Growth, Catalase, Peroxidase and Indoleacetic Acid Oxidase Activity of Young Barley Seedlings

Barley seedlings were grown in darkness on filter paper saturated with phosphate buffer or CCC and Amo-1618 buffered solutions. The effects of CCC and Amo-1618 on growth, catalase, peroxidase and lAA-oxidase were studied on coleoptile and primary leaves. Both growth-retarding chemicals cause an inhibition of growth, Amo-1618 being more effective than CCC. They have no effect on catalase activity. Increasing concentrations of CCC and Amo-1618 progressively stimulate peroxidase and IAA-oxidase activities (Amo-1618 more than CCC). The enzymatic activity in short-treated plants is higher than in the corresponding control plants of the same height. It is proposed that CCC and Amo-1618 exert their effect on the growth of barley by acting on auxin catabolism.     

Regulation of sterol biosynthesis in etiolated mung bean hypocotyl sections

The incorporation of radioactivity into sterols by transmethylation of methionine-[¹⁴C-methyl] was studied in mung bean hypocotyl sections. Young hypocotyl sections (1 cm) synthesized 4 times more radioactive sterols than older sections (5 cm). The transmethylation reactions may be rate limiting in older tissues. Wounding has only a quantitative effect on sterol biosynthesis, as seen by incorporation experiments with MVA-[2-¹⁴C]. Naphthalene acetic acid (NAA) stimulates sterol biosynthesis in both wounded surfaces and intact tissues of mung bean hypocotyl sections.     

Photocontrol of gibberellin levels as related to the unrolling of etiolated wheat leaves

Summary The rapid increase in acidic gibberellin-like (GA-like) activity occurring in etiolated wheat (Triticum aestivum L.); leaf tissue in response to red light is phytochrome controlled. The production of some of the GA-like activity appears to possess a similar escapetime from far-red reversibility to leaf unrolling and is sensitive to Amo 1618. Application of these GA-like substances to leaf sections maintained in the dark causes unrolling. Increased GA-like activity can also be detected in non-irradiated portions of partly irradiated leaves.Abbreviations GA gibberellin - Amo 1618 2-isopropyl-4-(trimethylammonium chloride)-5-methylphenyl piperidine carboxylate - CCC -chloroethyltrimethyl ammonium chloride     

Effect of growth substances on flowering and sex expression in isolated apical buds of Spinacia oleracea

Apical buds of Spinacia oleracea L. cv. Matador were isolated from 7-day-old vegetative seedlings and grown in sterile culture under inductive long, or non-inductive short photoperiods. Flowering of isolated apices was inducible in long days in approximately 75% of the plants, and in short days by gibberellin treatment (about 40%) or by raising the temperature to 30–32°C (13%). In long days the percentage of flowering was further increased by gibberellin treatment (up to 90%), while it was unaffected by abscisic acid and was strongly decreased by Amo 1618 (55%). In long days the ratio of male to female plants was near 1. The percentage of female plants in long days was increased by gibberellins, and the percentage of male ones decreased by kinetin; as a consequence, the ratio of male to female plants was lowered to about 0.50 in both cases. Abscisic acid and Amo 1618 had the opposite effect, probably because they decreased the flowering in female plants, so that the sex ratio was shifted to 2.6 and 6.8, respectively. Simultaneous treatment with GA₃ reversed the effect of abscisic acid on the sex ratio, but the reversal of the shift to maleness induced by Amo 1618 was only partial. In short days, gibberellins also stimulated the flowering in female plants more than in male. However, when the flowering was induced by higher temperature, most flowering plants were male and kinetin increased their percentage further. The above results have been discussed in terms of different requirements for flowering in male and female plants.     

Effect of an organo - mercurial fungicide, chlormequat and decenylsuccinic acid on frost hardiness and seedling diseases of oats

Treating oat seeds of ten cultivars with an organo-mercurial fungicide (Ceresan) and a dust formulation of the growth regulator chlormequat (2% a.i.) increased survival of seedlings growing under natural and simulated winter conditions. Treatment increased frost hardiness in less-hardy cultivars, increased soluble sugars in stem base tissues and protected them from attack by soil fungi. It also increased root length in some cultivars but did not affect leaf area. Foliar applications of 10^-3 m decenylsuccinic acid did not increase frost hardiness and also increased disease on stem base tissues. The possibility that sugar concentration may influence frost- and disease-resistance of seedlings is discussed.     

Effect of Light on Mevalonic Acid Incorporation into the Phytosterols of Nicotiana tabacum L. Seedlings

Mevalonic acid-2-¹⁴C was readily incorporated into the free, esterified, and glycosidic sterol fractions of tobacco (Nicotiana tabacum L. var. Burley 21) seedlings. The time course of mevalonic acid-2-¹⁴C incorporation was different for the various individual sterols. Campesterol and sitosterol (group I) became radioactive as the free sterol and subsequently as the steryl ester. The reverse order was observed for cholesterol and stigmasterol (group II). Light stimulated the incorporation of mevalonic acid-2-¹⁴C into the group I free sterols and during the first 6 to 9 hours into the steryl esters of group II. The increase in specific radioactivity of the group II steryl esters was followed by a decline. Based on time course studies it is suggested that the group II steryl esters turn over rapidly and that light influences the rate of turnover.     

Inhibition of Sterol Biosynthesis by 2-Isopropyl-4-dimethylamino-5-methylphenyl-1-piperidine Carboxylate Methyl Chloride in Tobacco and Rat Liver Preparations

2-Isopropyl-4-dimethylamino-5-methylphenyl-1-piperidine carboxylate methyl chloride, 90%, applied to rootless tobacco (Nicotiana tabacum cv. Samson) seedlings inhibits the incorporation of ¹⁴C-mevalonate into sterols. Concomitantly, the retardant causes the accumulation of squalene-2,3-epoxide, an intermediate in sterol biosynthesis. The results with tobacco are identical to those produced by the retardant in cell-free rat liver preparations.     

Exogenously applied GA4 is converted to GA1 in seedlings of Salix

Gibberellin A₄ (GA₄) is biologically active in Salix pentandra and is able to induce stem elongation in seedlings grown under short day (SD) conditions, as well as in seedlings grown under long day (LD) conditions and treated with a growth retardant BX-112. [³H₂]GA₄ and [²H₂]GA₄ were applied to seedlings and leaf and stem explants of S. pentandra, and metabolites were studied using HPLC and GC-MS. After application of [³H₂]GA₄ to seedlings of S. pentandra, one of the three main radioactive metabolites in the free acid fraction had retention properties similar to GA₁. Using [²H₂]GA₄, this compound was identified by GC-MS with SIM as [²H₂]GA₁ both from short day-grown and BX-112-treated seedlings, as well as in leaf and stem explants. After injection of GA₄ into a mature leaf, GA₁ was mainly found in the elongating stem tissue. Thus, the possibility that the biological activity of GA₄ in Salix is due to its conversion to GA₁ cannot be excluded.     

外源SA和NO对NaCl胁迫下番茄幼苗生长、光合及离子分布的影响

以番茄(Lycopersicon esculentum Mill.)品种‘秦丰保冠’为试材,采用营养液培养法,研究单独和复配施用外源水杨酸(SA)、一氧化氮(NO)供体硝普钠(SNP)对100mmol/L NaCl胁迫下番茄幼苗生长、光合及离子分布的影响。结果表明:(1)单独和复配外施SA、SNP均能有效抑制NaCl胁迫下番茄幼苗叶片光合色素(Chla、Chlb、Chla+b和Car)含量、Chla/b值、净光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)、瞬时水分利用效率(WUEt)、表观光能利用效率(LUEapp)和表观CO2利用效率(CUEapp)的下降及Car/Chla+b值和胞间CO2浓度(Ci)的升高,并以SA和SNP复配处理效果最明显。(2)NaCl胁迫下,外源SA、SNP单独和复配处理的番茄幼苗各器官(叶、茎和根)中Cl-、Na+含量和Na+/K+、Na+/Ca2+、Na+/Mg2+值显著降低,而K+、Ca2+和Mg2+的含量却不同程度提高,其中以SA和SNP复配处理效果最好。(3)单独和复配外施SA、SNP均能有效减轻NaCl胁迫对番茄幼苗生长的抑制作用,并促进各器官生物量的积累和壮苗的形成,且以SA和SNP复配处理效果更佳。研究表明,复配外施SA和SNP在诱导番茄幼苗提高抗(耐)盐能力方面具有协同增效作用。     

Influence of Etherel and Gibberellic Acid on Carbon Metabolism, Growth, and Essential Oil Accumulation in Spearmint (Mentha Spicata)

Changes in growth parameters and ¹⁴CO₂ and [U-¹⁴C]-sucrose incorporation into the primary metabolic pools and essential oil were investigated in leaves and stems of M. spicata treated with etherel and gibberellic acid (GA). Compared to the control, GA and etherel treatments induced significant phenotypic changes and a decrease in chlorophyll content, CO₂ exchange rate, and stomatal conductance. Treatment with etherel led to increased total incorporation of ¹⁴CO₂ into the leaves wheras total incorporation from ¹⁴C sucrose was decreased. When ¹⁴CO₂ was fed, the incorporation into the ethanol soluble fraction, sugars, organic acids, and essential oil was significantly higher in etherel treated leaves than in the control. However, [U-¹⁴C]-sucrose feeding led to decreased label incorporation in the ethanol-soluble fraction, sugars, organic acids, and essential oils compared to the control. When ¹⁴CO₂ was fed to GA treated leaves, label incorporation in ethanol-insoluble fraction, sugars, and oils was significantly higher than in the control. In contrast, when [U-¹⁴C]-sucrose was fed the incorporation in the ethanol soluble fraction, sugars, organic acids, and oil was significantly lower than in the control. Hence the hormone treatment induces a differential utilization of precursors for oil biosynthesis and accumulation and differences in partitioning of label between leaf and stem. Etherel and GA influence the partitioning of primary photosynthetic metabolites and thus modify plant growth and essential oil accumulation. This revised version was published online in June 2006 with corrections to the Cover Date.     

Changes in the levels and composition of sterols in different tissues of Lolium temulentum plants during floral development

Free, esterified and glycosylated sterols were analysed separately from the shoot apices, leaves, leaf sheaths and stems of Lolium temulentum L. (strain Ceres) plants during floral development. Short-day grown plants (50 days old) were induced to flower by exposure to a single long day. The four major sterols found by GC-MS analysis were sitosterol, cholesterol, campesterol and stigmasterol. The sterol levels in the shoot apex were much higher than those in the leaf, leaf sheath and stem. A much greater proportion of cholesterol was found in the shoot apex than in other tissues and this may reflect a specific association of cholesterol with meristematic and/or reproductive tissues.
During the inductive treatment, the sterol levels decreased in all four tissues. The major effect during early differentiation was the occurrence of transient increases in the free and esterified sterol levels in the leaf and the stem tissues. The steryl ester content peaked 24 h before the appearance of double ridges, followed by a peak in free sterol content at the double ridge stage. Similar changes could not be detected in the shoot apices. This is the first report of the sterol composition of developing shoot apices, and the results emphasize the dynamic nature of sterol metabolism during reproductive growth of L. temulentum.     

镉与萘复合胁迫对红树植物白骨壤幼苗萌芽及生长的影响

为探讨白骨壤(Avicennia marina)幼苗对重金属镉(Cd)和多环芳烃萘(Nap)复合胁迫的响应,采用砂基栽培,对其幼苗的萌芽和生长进行了研究。结果表明,Cd、Nap复合胁迫对白骨壤萌芽的抑制效应较单一胁迫明显,胁迫前期幼苗成活率提高,胁迫后期则降低。胁迫栽培45 d,10 mg L~(–1)的Nap在叶形态、茎高及各器官生物量上能够减轻Cd胁迫的影响,但增强对根长的抑制作用,10 mg L~(–1) Nap-25 mg L~(–1) Cd处理的叶面积、叶长、叶宽、茎高及全株生物量分别比25 mg L~(–1) Cd处理的提高9.6%、7.9%、7.4%、5.1%和20.2%,但根长则比150 mg L~(–1) Cd处理的下降11.1%。至胁迫栽培90 d,各处理间幼苗器官及全株生物量无显著影响,复合胁迫对叶形态、茎高和根长等的抑制作用要强于单一Cd胁迫。因此,随着复合胁迫时间的延长,Cd和Nap对白骨壤幼苗的生长由拮抗效应转变为协同效应。