Induction of indoleacetic Acid synthetases in tobacco pith explants

Formation of indoleacetic acid synthetases in tobacco pith explants was determined by following the growth of tissue cultures under conditions of indole-3-acetic acid (IAA) deprivation and by measuring the enzymatic conversion of tryptophan to IAA in the cultures. The pith explants obtained from the parent plant (Nicotiana glauca) and from basal regions of the tumor-prone hybrid (N. glauca × N. langsdorffii) both show a requirement for exogenous IAA for growth initiation in culture. The parent pith requires the constant presence of added IAA for continued growth, but hybrid pith, after initial treatment with IAA, will grow without further additions. IAA synthetases are detected in the cell homogenates of hybrid pith explants cultured with either continuous or initial IAA addition. These observations indicate that IAA may induce its own production. In contrast, IAA synthetases are not found in the parent pith under comparable culture conditions. Besides IAA, nonhormonal compounds such as indole and tryptophan are also capable of stimulating growth of hybrid pith, possibly through the induction of IAA synthetases needed for IAA formation. Indole and tryptophan are, however, inactive in growth promotion of the parent pith. These results suggest that the genomic expression of IAA synthetase formation is more stringently controlled in N. glauca than in the tumorprone hybrid.     

Production of indole-3-acetic acid and related indole derivatives from L-tryptophan by <Emphasis Type="Italic">Rubrivivax benzoatilyticus</Emphasis> JA2

Rubrivivax benzoatilyticus JA2 produces indoles with simultaneous utilization of L-tryptophan. Fifteen chromatographically distinct indole derivatives were detected from the L-tryptophan-supplemented cultures of R. benzoatilyticus JA2. Nine of these were identified as, indole 3-acetamide, Methoxyindole-3-aldehyde, indole 3-aldehyde, methoxyindole-3-acetic acid, indole 3-acetic acid, indole-3-carboxylic acid, indole-3-acetonitrile, indole, and trisindoline. Tryptophan stable isotope feeding confirmed the indoles produced are from the supplemented L-tryptophan. Indole 3-acetic acid is one of the major products of L-tryptophan catabolism by R. benzoatilyticus JA2 and its production was influenced by growth conditions. Identification of indole 3-acetamide and tryptophan monooxygenase activity suggests indole 3-acetamide routed IAA biosynthesis in R. benzoatilyticus JA2. The study also indicated the possible multiple pathways of IAA biosynthesis in R. benzoatilyticus JA2.     

Relations polyphenols-croissance: Lignification et limitation de croissance chez Lycopersicum esculentum

Abstract Polyphenols and growth – Lignification and limitation of growth in Lycopersicum esculentum. When fed with quinic acid, young tomato seedlings (Lycopersicum esculentum Mill. cv. St. Pierre) exhibited reduced growth and marked changes in cell wall composition: cellulose concentrations decreased whereas those of lignin increased. Exogenously supplied growth substances (IAA, GA₃) affected both the size of the plants and the lignification process: IAA treatments resembled quinic acid induced modifications with regard to both size and lignification: GA₃ applied to quinate treated plants counteracted the effects of this compound by reducing the lignin content and improving the growth. The possible effect of abnormal lignification as a limiting factor in cell growth is supported by the characterization of lignins in tissues different from xylem.     

外源色氨酸对油菜幼苗色氨酸下游代谢网络及生长发育的影响

色氨酸是合成蛋白质的重要氨基酸,也是植物生长激素IAA和某些次生代谢产物的前体物质,对植物生长发育及病虫害防御有重要作用。为了探究色氨酸对白菜型油菜(Brassica rapa L)生长发育及防御物质累积的影响及其可能的机制,该研究采用外源色氨酸对油菜幼苗进行叶面喷施,分析了色氨酸对油菜幼苗生长发育及生长素IAA和次生代谢产物芥子油苷合成的影响。结果表明：(1)低浓度色氨酸(100 mg/L)处理可有效地促进油菜叶片与根系的发育,但随着浓度增高,促进作用逐渐减弱。(2)荧光定量PCR分析表明,外源色氨酸处理后,油菜幼苗叶片中生长素IAA的3条合成途径都被激活,IPA途径的BrTAA1和BrYUCCA8、IAM途径的BrAMI1及IAOx途径的BrCYP71A13和BrNIT2等关键酶基因的表达均受到强烈的诱导,因而导致IAA的含量显著提高。(3)外源色氨酸处理还激活了下游的吲哚族芥子油苷的合成途径调控因子基因BrMYB34、BrMYB51和BrMYB122以及合成酶基因BrCYP79B2、BrCYP79B3、BrCYP83B1、BrSUR1的表达,同时抑制了其降解酶基因BrTGG1、BrPEN2的表达,从而引起吲哚族芥子油苷的累积。研究发现,外源色氨酸处理可通过调控生长素IAA合成途径和吲哚族芥子油苷的合成途径相关基因表达,有效地促进油菜生长调节物质和生物防御物质的累积,从而增加生物量和提高潜在抗病能力。     

Molecular characterization of two anthranilate synthase alpha subunit genes in <Emphasis Type="Italic">Camptotheca acuminata</Emphasis>

The potent anticancer and antiviral compound camptothecin (CPT) is a monoterpene indole alkaloid produced by Camptotheca acuminata. In order to investigate the biosynthetic pathway of CPT, we studied the early indole pathway, a junction between primary and secondary metabolism, which generates tryptophan for both protein synthesis and indole alkaloid production. We cloned and characterized the alpha subunit of anthranilate synthase (ASA) from Camptotheca (designated CaASA), catalyzing the first committed reaction of the indole pathway. CaASA is encoded by a highly conserved gene family in Camptotheca. The two CaASA genes are differentially regulated. The level of CaASA2 is constitutively low in Camptotheca and was found mainly in the reproductive tissues in transgenic tobacco plants carrying the CaASA2 promoter and -glucuronidase gene fusion. CaASA1 was detected to varying degrees in all Camptotheca organs examined and transiently induced to a higher level during seedling development. The spatial and developmental regulation of CaASA1 paralleled that of the previously characterized Camptotheca gene encoding the beta subunit of tryptophan synthase as well as the accumulation of CPT. These data suggest that CaASA1, rather than CaASA2, is responsible for synthesizing precursors for CPT biosynthesis in Camptotheca and that the early indole pathway and CPT biosynthesis are coordinately regulated.     

Alkaloid formation by habituated and tumorous cell suspension cultures of Catharanthus roseus

Habituated and tumorous Catharanthus roseus cells grown in the absence of hormones accumulated indole alkaloids. Total alkaloids and alkaloid pattern were the same when cells were cultured in medium without hormones or in alkaloid production medium with and without indole acetic acid. Treatment of cells with Pythium homogenate as elicitor did not increase total alkaloids or change the pattern of alkaloids produced. When either habituated or tumorous cells were grown in 1B5 medium after Gamborg et al (1968) containing 2,4-dichlorophenoxyacetic acid (2,4-D), their capacity to accumulate alkaloids decreased with time. The levels of tryptophan decarboxylase (TDC) and strictosidine synthase (SS) specific activities were constant throughout growth except when cells were exposed to 2,4-D in 1B5 medium, where enzyme activities declined in step with the decrease in alkaloid accumulation. Neither habituated nor tumorous cell suspension cultures accumulated vindoline, nor could they be induced to produce this alkaloid by any of the given treatments.NRCC No. 27514     

Isolation of auxotrophs and analysis of regulation of tryptophan biosynthesis in Zymomonas mobilis

Tryptophan auxotrophs were isolated and used to analyze the regulation of tryptophan biosynthesis in Zymomonas mobilis. Twelve tryptophan auxotrophs were cassified as trp E, B or A based on accumulation of, or growth on, indole and anthranilic acid. Trp B mutants were found to accumulate indole when grown on limiting, but not on excess tryptophan, suggesting that tryptophan plays a role in regulating its biosynthesis. Tryptophan synthase and indoleglycerol phosphate synthase specific activities were measured in the wild-type strain and two trp mutants grown in limiting or excess tryptophan. Neither activity was repressed by exogenous tryptophan.Abbreviations CDRP O-(carboxyphenol amino)-1 deoxyribulose 5-phosphate - IGPS indoleglycerol phosphate synthase - TS tryptophan synthase Dedicated in memory of Dr. O. H. Smith     

Plant Growth Substances Produced by Azospirillum brasilense and Their Effect on the Growth of Pearl Millet (Pennisetum americanum L.)

Azospirillum brasilense, a nitrogen-fixing bacterium found in the rhizosphere of various grass species, was investigated to establish the effect on plant growth of growth substances produced by the bacteria. Thin-layer chromatography, high-pressure liquid chromatography, and bioassay were used to separate and identify plant growth substances produced by the bacteria in liquid culture. Indole acetic acid and indole lactic acid were produced by A. brasilense from tryptophan. Indole acetic acid production increased with increasing tryptophan concentration from 1 to 100 μg/ml. Indole acetic acid concentration also increased with the age of the culture until bacteria reached the stationary phase. Shaking favored the production of indole acetic acid, especially in a medium containing nitrogen. A small but biologically significant amount of gibberellin was detected in the culture medium. Also at least three cytokinin-like substances, equivalent to about 0.001 μg of kinetin per ml, were present. The morphology of pearl millet roots changed when plants in solution culture were inoculated. The number of lateral roots was increased, and all lateral roots were densely covered with root hairs. Experiments with pure plant hormones showed that gibberellin causes increased production of lateral roots. Cytokinin stimulated root hair formation, but reduced lateral root production and elongation of the main root. Combinations of indole acetic acid, gibberellin, and kinetin produced changes in root morphology of pearl millet similar to those produced by inoculation with A. brasilense.     

Control of Aromatic Amino Acid Biosynthesis in Cultured Plant Tissues: Effect of Intermediates and Aromatic Amino Acids on Free Levels

Shikimate, anthranilate, indole, l -tryptophan, phenylpyruvate, l -p henylalanine, p-hydroxyphenylpyruvate or l -tyrosine were added to suspension-cultured Nicotiana tabacum (tabacco) and Daucus carota (carrot) tissues and incubated for 24 hours. Uptake of each compound was substantial as measured by its decrease in the medium. The levels of free tryptophan, phenylalanine and tyrosine were determined in the tissues after the 24 hours incubation. Shikimate did not change the aromatic animo acid levels in carrot tissue, but did increase all three in tobacco (3-fold or more), indicating a less stringent feedback control in tobacco. Anthranilate and indole increased the tissue tryptophan levels in both species by at least 17-fold, showing that the flow from anthranilate and indole to tryptophan was apparently unhindered by enzymatic control mechanisms. When tryptophan levels were elevated in both carrot and tobaccotissues by anthranilate, indole or tryptophan addition, there was also an increase in free phyenylalanine and tyrosine. This might be due to the reversal of phenylalanine and tyrosine feedback inhibition of chorismate mutase by the high tryptophan in the tissue. Chorismate mutase activity in tobacco crude extracts could be inhibited by 66–90% by 1 mM phenylalanine and /or tyrosine. Tryptophan at 1 mM stimulated the enzyme activity by 1/3 and completely reversed the phenylalanine and/or tyrosine inhibition of enzyme activity. Chorsimate mutase activity amino acids under a variety of conditions. Phenylpyruvate increased the phenylalanine levels and p-hydroxyphenylpyruvate increased the tyrosine levels in carrot and tobacco tissues indicating that there was no feedback control of the last step in phenylalanine and tyrosine biosynthesis.     

Transfer ribonucleic Acid modification and its relationship to tumorous and nontumorous plant growth

Detailed analyses of tRNA hydrolysates from four tissue types of Nicotiana tabacum, pith from intact plants, pith growing in culture, habituated tissue in culture, and crown gall tumor tissue in culture, revealed significant qualitative and quantitative differences in the pattern of methylation. Although pith from intact plants and pith growing in culture possessed seven different methylated nucleosides, only two were found in habituated and tumorous tissues in culture. Four of the five compounds accounting for the difference were tentatively identified as methylated guanosines. Evaluation of results in terms of several parameters, including growth rate, the tumorous state, habituation, tissue culture, and potential for differentiation, indicate that the extent of tRNA methylation may be correlated with the potential for differentiation of a particular tissue.     

Auxin-like activity of extract from hypertrophied tissue of <Emphasis Type="Italic">Acacia eburnea</Emphasis> infected with <Emphasis Type="Italic">Ravenelia esculenta</Emphasis>

Ravenelia esculenta Naras. and Thirum. is a rust, pathogenic to Acacia eburnea Willd. The infection leads to hypertrophy changing the morphology with bizarre shapes of plant organs. Healthy and infected tissues were subjected to extraction of IAA and indole derivatives and were estimated by spectrophotometric methods. The hypertrophy produced was presumed to be due to increase in the indole-3-acetic acid (IAA) content in the infected tissue, however, the amount of IAA in infected tissues decreased with the progression of disease. Concomitantly, the infected tissue showed the presence of a novel, slow migrating, indole derivative on TLC. Cultured shoot tips of Withania somnifera were dosed with the methanolic extract of the infected hypertrophied tissue (MEHT) (0.25, 0.5, 0.75, 1.00 and 1.25 mg/l). The stimulation in shoot growth along with profuse rooting was observed in a dose dependent manner with maximum at 1.00 and 1.25 mg/l concentration.     

Action of tryptophan analogues in Saccharomyces cerevisiae

In an analysis of the effects of various tryptophan and indole analogues in Saccharomyces cerevisiae we determined the mechanisms by which they cause growth inhibition: 4-Methyltryptophan causes a reduction in protein synthesis and a derepression of the tryptophan enzymes despite of the presence of high internal levels of tryptophan. This inhibition can only be observed in a mutant with increased permeability to the analogue. These results are consistent with but do not prove an interference of this analogue with the charging of tryptophan onto tRNA. 5-Methyltryptophan causes false feedback inhibition of anthranilate synthase, the first enzyme of the tryptophan pathway. This inhibits the further synthesis of tryptophan and results in results in tryptophan limitation, growth inhibition and derepression of the enzymes. Derepression eventually allows wild type cells to partially overcome the inhibitory effect of the analogue. 5-Fluoroindole is converted endogenously to 5-fluorotryptophan by tryptophan synthase. Both endogenous and externally supplied 5-fluorotryptophan are incorporated into protein. This leads to intoxication of the cells due to the accumulation of faulty proteins. 5-Fluorotryptophan also causes feedback inhibition of anthranilate synthase and reduces the synthesis of tryptophan which would otherwise compete with the analogues in the charging reaction. Indole acrylic acid inhibits the conversion of indole to tryptophan by tryptophan synthase. This results in a depletion of the tryptophan pool which, in turn, causes growth inhibition and derepression of the tryptophan enzymes.Abbreviations cpm counts per minute - OD optical density at 546 nm - TCA trichloro acetic acid - tRNA transfer ribonucleic acid; trp1 to trp5 refer to the structural genes for the corresponding tryptophan biosynthetic enzymes - trpl^– res. trp1^± refer to mutant strains synthesizing completely resp. partially defective enzymes     

<Emphasis Type="SmallCaps">l</Emphasis>-Tryptophan catabolism by <Emphasis Type="Italic">Rubrivivax benzoatilyticus</Emphasis> JA2 occurs through indole 3-pyruvic acid pathway

Rubrivivax benzoatilyticus JA2 utilizes l-tryptophan as the sole source of nitrogen for growth, and it has a doubling time of ~11 h (compared to 8 h with ammonium chloride). With cell free extracts in the presence of 2-oxoglutarate, indole-3-pyruvic acid, indole-3-acetaldehyde, indole-3-acetic acid, isatin, benzaldehyde, gallic acid and pyrogallol were identified using high performance liquid chromatography (HPLC) and liquid chromatography–mass spectroscopy (LC–MS) analysis. The conversion of l-tryptophan into indole 3-pyruvic acid and glutamate by an enzyme aminotransferase was confirmed and the catabolism of indole-3-pyruvic acid via side chain oxidation followed by ring oxidation, gallic acid and pyrogallol were confirmed as metabolites. In addition, the proposed pathway sequential conversion of indole-3-pyruvic acid to the end product of pyrogallol was identified, including an enzymatic step that would convert isatin to benzaldehyde by an enzyme yet to be identified. At this stage of the study, the enzyme tryptophan aminotransferase in R. benzoatilyticus JA2 was demonstrated.     

GROWTH FACTOR INTERACTIONS IN THE TISSUE CULTURE OF TUMOROUS AND NONTUMOROUS NICOTIANA GLAUCA-LANGSDORFFII

Schaeffer , Gideon W., Harold H. Smith and Marion P. Perkus . (Brookhaven Natl. Lab., Upton, N. Y.) Growth factor interactions in the tissue culture of tumorous and nontumorous Nicotiana glauca-langsdorffii. Amer. Jour. Bot. 50(8): 766–771. Illus. 1963.—Tissues representing tumorous and nontumorous Nicotiana glauca-langsdorffii were cultured on high (5 ×) and low (1 ×) concentrations of a modified White's basal medium containing 2.9 × 10^–6m indoleacetic acid. The growth responses of tissues of both the tumorous and nontumorous genotypes to supplements of kinetin, glutamine, inositol and nucleic acid constituents added singly and in all combinations were noted on high-salt media. The nucleic acid components inhibited growth and were omitted from low-salt media. The best growth response was observed with glutamine and inositol for tissues from the tumorous hybrid and with glutamine, inositol and kinetin in the nontumorous type. Kinetin was a distinct and consistent requirement for rapid growth of nontumorous tissues, but no appreciable kinetin effect could be observed with tissues from the tumorous genotype.     

The influence of gamma radiation on the biosynthesis of indoles and gibberellins in barley the action of zinc on the restitution of growth substance level in irradiated plants

Investigations were made on the effect of exposing barley seeds to gamma-radiation (5–40 kR), alone and in combination with the application of zinc (soaking the seeds in solutions containing 5.10^?5–5.10^?1% Zn for 12 hours before sowing) on growth and on the content of tryptophan, indole auxins and gibberellin-like substances in seven-day plants. Radiation decreased both growth and the content of tryptophan (e.g. by about 53% at 30 kR), of indole auxins (by about 60% auxin in the zone of IAA on the chromatogram at 30 kR), and also the content of gibberellin-like substances (by about 67% gibberellin content in the zone of GA₃ on the chromatogram) of plants. The irradiation of standard samples of tryptophan, indolyl-acetic acid and gibberellic acid alone with many times greater doses (up to 1000 kR) did not lead to marked radiochemical degradation of these substances. It can be assumed that radiation damages the enzyme systems “synthesizing” natural growth substances in plants. The damaging effect of radiation on auxins is already displayed in the synthesis of tryptophan, which is inhibited. Zinc interacts with the damaging effect of radiation on growth. Optimum concentrations of zinc (5.10^?3% Zn) counteract the effect of radiation, up to doses of about 12 kR, on the growth in height in 7-day plants so that it is equal to the controls. Normal content of tryptophan and auxin in the position of indolecetic acid on chromatograms can only be reached by the addition of zinc when the dose of radiation was not greater than about 8 kR, which is less than the influence exerted by zinc on the restitution of growth. On the other hand, the biosynthesis of gibberellin-like substances at the position of gibberellic acid on chromatograms can be restored by zinc to their original level to doses of up to 30 kR. The increased biosynthesis of auxins and gibberellins caused by zinc in irradiated plants is explained by the activation of the remaining and non—damaged enzyme systems carrying out this biosynthesis. The activation of the biosynthesis of growth substances by zinc will also contribute to the restitution effect of zinc on the growth of plants from irradiated seeds.     

Identification of Flavone Compounds in Eighteen Gramineae Species

Conditions for tryptophan synthesis from pyruvic acid, indole and NH₄Cl by Enterobacter aerogenes AHU 1540 having a high tryptophanase activity, were investigated using a reaction mixture containing 1.7% of pyruvic acid. Under optimum conditions, 16.4g/liter of tryptophan was accumulated after 24 hr of incubation.

Agaricus campestris AHU 9382 produced pyruvic acid in amounts of 22 ~ 26.5 g/liter from 5% of glucose after 3-days shaking culture. When E. aerogenes was added to this fermentation broth together with indole and NH₄Cl, pyruvic acid produced was rapidly converted to tryptophan and yields of tryptophan as high as 15 g/liter were obtained after 12 hr of incubation. Furthermore, pyruvic acid fermentation by Saccharomyces exiguus AHU 3110 or Corynebacterium sp. 37-3A could also be used as a pyruvic acid source for subsequent tryptophan production.     

Modulation des Réactions de Défense du Palmier a Huile Contre le Fusarium oxysporum f. sp. elaeidis (Schlecht) Toovey: Applications: Prémunition et Stimulation Chimique

Defence reactions of palm trees to Fusarium oxysporum f. sp. elaeidis (Schlecht) Toovey Cross protection and stimulation of inhibitory substances In palm tree genetic characters of tolerance to Fusarium oxysporum f. sp. elaeidis are correlated with synthesis of fungal inhibitors in infected tissues. Individual variation of synthesis level is also observed among plants of a same line. Defence reactions are triggered by pre-inoculation of an avirulent strain of Fusarium oxysporum. Similar results are obtained by application of analogs of fungal elicitors like arachidonic acid. Quite the contrary, treatment of plants with a competitive inhibitor of PAL downs natural barriers and in a same way the effects of cross protection and arachidonic treatment. Seven phenolic compounds, mainly benzoic acid derivatives, inhibit in vitro the growth of pathogen like spores germination. The variability of the host reaction and its stimulation by elicitors could be used to improve the resistance.     

Differenciation cellulaire et composés sulfhydrylés acido-solubles de la racine de Lens culinaris Med.

Cell differentiation and acid-soluble sulfhydryl compounds in the root of Lens culinaris. Med. — The content of acid-soluble sulfhydryl compounds (SH + S-S) is determined amperometrically in tissues of the Lens root. Two distinct zones are analysed: first the meristematic one (0 to 1.6 mm from the tip) and secondly the elongating one (1.6 to 3.7 mm). Measurements concerned the first 80 hours of the root growth. SH/S-S ratio is minimum in the meristematic ZONE. Connections seem to exist between the growth rate and the amount of SH compounds in the elongating zone. These facts suggest that the increase of cytoplasmic SH is associated with the reduction of protein-disulfur-bridges, which account for t he intermicrofibrilar bindings in the cell wall. The effects of auxins (indoleacetic acid and naphtylacetic acid) treatments are also studied. They are strictly localized in the apical zone and their intensity depends upon the auxin concentration. SH-level is rising: this is due partially to a reduction of acid-soluble S-S.     

Oxidation of Indole and Indole Derivatives Catalyzed by Nonheme Chloroperoxidases

Indole, indolylacetic acid, and tryptophan were oxidized by chloroperoxidases isolated from strains of Streptomyces lividansand Pseudomonas pyrrocinia. Indigo (indoxyl), isatin, and anthranilic acid (intermediate products of oxidative degradation of indole and indole derivatives) were isolated from the reaction medium.