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1.
We studied the effects of inhibitors of ornithine decarboxylase (ODC), arginine decarboxylase (ADC) and spermidine synthase (Spd synthase) on organogenesis and the titers of polyamines (PA) and alkaloids in tobacco calli. DL--difluoromethylarginine (DFMA) and D-arginine (D-Arg), both inhibitors of ADC activity, were more effective than DL--difluoromethylornithine (DFMO), an inhibitor of ODC, in reducing titers of PA and the putrescine (Put)-derived alkaloids (nornicotine and nicotine). Dicyclohexylammonium sulfate (DCHA), an inhibitor of Spd synthase, was also more efficient than DFMO in reducing PA and alkaloid levels. Root organogenesis is inversely related to the titers of Put and alkaloids. Thus, DFMA and D-Arg, which strongly inhibit Put and alkaloid biosynthesis, markedly promote root organogenesis, while control callus with high Put and alkaloid content showed poor root organization. These results suggest that morphological differentiation is not required for activation of secondary metabolic pathways and support the view that ADC has a major role in the generation of Put going to the pyrrolidine ring of tobacco alkaloids.  相似文献   

2.
Arginine decarboxylase as the source of putrescine for tobacco alkaloids   总被引:1,自引:0,他引:1  
The putrescine which forms a part of nicotine and other pyrrolidine alkaloids is generally assumed to arise through the action of ornithine decarboxylase (ODC). However, we have previously noted that changes in the activity of arginine decarboxylase (ADC), an alternate source of putrescine, parallel changes in tissue alkaloids, while changes in ODC activity do not. This led us to undertake experiments to permit discrimination between ADC and ODC as enzymatic sources of putrescine destined for alkaloids. Two kinds of evidence presented here support a major role for ADC in the generation of putrescine going into alkaloids: (a) A specific 'suicide inhibitor' of ADC effectively inhibits the biosynthesis of nicotine and nornicotine in tobacco callus, while the analogous inhibitor of ODC is less effective, and (b) the flow of 14C from uniformly labelled arginine into nicotine is much more efficient than that from ornithine.  相似文献   

3.
The putrescine which forms a part of nicotine and other pyrrolidine alkaloids is generally assumed to arise through the action of ornithine decarboxylase (ODC). However, we have previously noted that changes in the activity of arginine decarboxylase (ADC), an alternate source ofputrescine, parallel changes in tissue alkaloids, while changes in ODC activity do not. This led us to undertake experiments to permit discrimination between ADC and ODC as enzymatic sources of putrescine destined for alkaloids. Two kinds of evidence presented here support a major role for ADC in the generation ofputrescine going into alkaloids: (a) A specific ‘suicide inhibitor’ of ADC effectively inhibits the biosynthesis of nicotine and nornicotine in tobacco callus, while the analogous inhibitor of ODC is less effective, and (b) the flow of 14C from uniformly labelled arginine into nicotine is much more efficient than that from ornithine.  相似文献   

4.
We studied the effects of dl-α-difluoromethylarginine (DFMA) and dl-α-difluoromethylornithine (DFMO), specific, irreversible inhibitors of arginine decarboxylase (ADC) and ornithine decarboxylase (ODC), respectively, on organogenesis growth and titers of free polyamines and conjugated putrescines (hydroxycinnamoyl putrescines) in tobacco (Nicotiana tabacum cv Xanthi n.c.) calli. These results suggest that ADC and ODC regulate putrescine biosynthesis during early and later stages of tobacco callus development, respectively. ADC appears active in biosynthesis of large levels of free amines (agmatine and putrescine) while ODC appears active only in biosynthesis of large levels of putrescine conjugates (hydroxycinnamoyl putrescines). DFMA inhibits the fresh and dry weight increases of tobacco calli, whereas DFMO even promoted the fresh and dry weight increases, thus supporting the view that ADC is important for cell division and callus induction. Inhibition of ODC activity by DFMO resulting in an amide deficiency after 4 weeks of culture facilates the expression of differentiated cell functions. Formation of buds is associated with a significant decrease of hydroxycinnamoyl putrescines.  相似文献   

5.
Polyamines and plant alkaloids   总被引:7,自引:0,他引:7  
Naturally occurring alkaloids are nitrogenous compounds that constitute the pharmacogenically active basic principles of flowering plants. Alkaloids are classified into several biogenically related groups. Tobacco alkaloids are metabolised from polyamines and diamines putrescine and cadaverine. N-methyl transferase is the first enzyme in alkaloid biosynthetic pathway which drives the flow of nitrogen away from polyamine biosynthesis to alkaloid biosynthesis. Arginine decarboxylase has been suggested to be primarily responsible for providing putrescine for nicotine synthesis. Tryptophan is the precursor of indole alkaloids. However, the biosynthetic pathway of tropane and isoquinoline alkaloids are not clear. Genes for several key biosynthetic enzymes like arginine decarboxylase, ornithine decarboxylase, putrescine N-methyl transferase and spermidine synthase, hyoscyamine 6 beta hydroxylase,tryptophan decarboxylase etc have been cloned from different plant species. These genes are regulated by plant hormones, light, different kinds of stress and elicitors like jasmonates and their strong expression is primarily in the cultured roots. In view of this, the axenic hairy root cultures induced by Agrobacterium rhizogenes have been utilised to synthesise secondary metabolites. The current development in the knowledge of alkaloid biosynthesis, particularly molecular analysis, has been discussed in this review that may help to open up new avenues of investigation for the researchers.  相似文献   

6.
In vitro formation of roots is obtained directly, without intermediate growth of callus, from foliar explants of a tobacco (Nicotiana tabacum) plant cultured on Murashige and Skoog medium containing IAA. Auxin-induced root formation was accompanied by significant changes in hydroxycinnamoylputrescine levels. Increasing levels were found in leaf explants during the first 14 days in culture; this was followed by a sharp decline after 20 days. Early changes in putrescine conjugates were detected in leaf explants before the visible appearance of roots. An early and transitory accumulation of hydroxycinnamoylputrescines was observed in the roots. Free polyamines (putrescine, spermidine, and spermine) in leaf explants and roots were always at a low level and only small changes in their concentrations were observed, α-dl-difluoromethylarginine and α-dl-difluoromethylornithine, specific, irreversible inhibitors of arginine decarboxylase and ornithine decarboxylase, respectively, inhibited putrescine accumulation and root initiation and reduced the fresh and dry weights of leaf explants. These effects were reversed by free putrescine or hydroxycinnamoylputrescines. The results reported here suggest that hydroxycinnamoylputrescines are associated with root formation. The relationship among free polyamines, hydroxycinnamoylputrescines, cell division, and root formation is discussed.  相似文献   

7.
In callus cultures of Nicotiana tabacum L. cv. Burley 21 we have examined the effect of two auxin concentrations (1 and 11.5 μ M α-naphthaleneacetic acid) in the culture medium on K+, putrescine and nicotine levels and activities of putrescine-biosyn-thetic enzymes l -arginine decarboxylase (EC 4.1.1.19) and l -ornithine decarboxylase (EC 4.1.1.17). The calli grown on the low-auxin medium (with optimal auxin concentration for nicotine synthesis) had significantly lower concentrations of K+ and higher concentrations of nicotine than those grown on the high-auxin medium (with a supraoptimal auxin concentration). Furthermore, in the calli grown on both culture media, there was a positive correlation between the levels of HCIO4-soluble free putrescine and nicotine, as well as a negative correlation between those of HCIO4-soluble bound putrescine and the alkaloid. The results suggest that in tobacco callus K+ uptake, the accumulation of HCIO4-soluble free putrescine and nicotine synthesis are related processes that depend upon the concentration of auxin in the culture medium; a concentration of 1 μ M NAA would increase HCIO4-soluble free putrescine level to a greater degree than that of 11,5 μ M NAA, and consequently lead to a higher production of the alkaloid. Although both putrescine-biosynthetic enzymes are active in our callus cultures, ornithine decarboxylase activity was considerably greater. This interpretation is supported by the enhancement of the 35.5 kDa band and 38.9 kDa band (detected by SDS-PAGE) which showed ornithine and arginine decarboxylase activity, respectively.  相似文献   

8.
Changes in the contents of polyamines (PAs) in tobacco leaves (Nicotiana tabacum L. cv. Wisconsin 38) grown under 16 h photoperiod were correlated with arginine and ornithine decarboxylase (EC 4.1.1.19 and EC 4.1.1.17) and diamine oxidase (EC 1.4.3.6) activities. The maximum of free and soluble conjugated forms of PAs occurred 1-2 h after the middle of the light period and was followed by two distinct peaks at the end of the light and at the beginning of the dark phase. Putrescine was the most abundant and cadaverine the least abundant PA in both free and PCA-soluble forms. However, cadaverine was predominant in PCA-insoluble conjugates, followed by putrescine, spermidine, and spermine. Both arginine and ornithine decarboxylases are involved in putrescine biosynthesis in tobacco leaves. Light dramatically stimulated the activity of ornithine decarboxylase, while no photoinduction of arginine decarboxylase activity was observed. Ornithine decarboxylase was found mainly in the particulate fraction. Only one peak, just after light induction, occurred in the cytosolic fraction, with 35% of the total ornithine decarboxylase activity. By contrast, the total arginine decarboxylase activity was equally divided between the soluble and pellet fractions. A sharp increase in diamine oxidase activity occurred 1 h after exposure to light, concomitant with the light-induced increase in ornithine decarboxylase activity. After a decline, diamine oxidase activity increased again, together with the rise in the amount of free Put. The roles of both conjugation of PAs with hydroxycinnamic acids and oxidative degradation of putrescine in maintaining free PA levels during the 24 h light/dark cycle are discussed. The presented results have shown that the parameters studied here followed rhythmical changes and were not only affected by light.  相似文献   

9.
The short-term polyamine response to inoculation, with tobacco mosaic virus (TMV), of TMV-inoculated NN (hypersensitive) and nn (susceptible) plants of Nicotiana tabacum (L.) cv. Samsun was investigated. Free and conjugated polyamine concentrations, putrescine biosynthesis, evaluated through arginine decarboxylase (ADC) and ornithine decarboxylase (ODC) activities, and putrescine oxidation, via diamine oxidase (DAO) activity, were analysed during the first 24 h from inoculation. Results were compared with those of mock-inoculated control plants. In NN TMV-inoculated plants undergoing the hypersensitive response (HR), free putrescine and spermidine concentrations had increased after 5 h compared with controls; polyamine conjugates also tended to increase compared with controls. In both virus- and mock-inoculated plants, ADC and ODC activities generally increased whereas DAO activity, which was present in controls, was detectable only in traces in inoculated tissues.
In TMV-infected susceptible plants, free putrescine and spermidine concentrations were lower at 5 h relative to controls, as were polyamine conjugates. No differences were revealed in ADC and ODC activities whereas DAO activity was not detectable. These results further support the hypothesis that polyamines are involved in the response of tobacco to TMV and that, only a few hours after inoculation, the response of hypersensitive plants is distinct from that of susceptible ones.  相似文献   

10.
《Phytochemistry》1987,26(6):1639-1643
Root cultures of Senecio vulgaris synthesize pyrrolizidine alkaloids which are accumulated in the form of their N-oxides. The cultures incorporate biosynthetic precursors, such as arginine, ornithine, isoleucine, putrescine and spermidine, with high efficiency into the alkaloids. Senecionine N-oxide is found to be the primary product of biosynthesis. With putrescine and spermidine incorporation rates of 20–30% are obtained. The N-oxide synthesized does not appear to undergo significant turnover. Tertiary pyrrolizidine alkaloids, if found at all, occur in small amounts in old tissues only. They are derived from the corresponding oxides, and are easily formed spontaneously during alkaloid extraction. The suitability of N-oxides in alkaloid storage is discussed.  相似文献   

11.
A cDNA of tobacco BY-2 cells corresponding to an mRNA species which was rapidly induced by methyl jasmonate (MeJA) in the presence of cycloheximide (CHX) was found to encode ornithine decarboxylase (ODC). Another cDNA from a MeJA-inducible mRNA encoded S-adenosylmethionine synthase (SAMS). Although these enzymes could be involved in the biosynthesis of polyamines, the level of putrescine, a reaction product of ODC, increased slowly and while the levels of spermidine and spermine did not change following treatment of cells with MeJA. However, N-methylputrescine, which is a precursor of pyrrolidine ring of nicotine, started to increase shortly after MeJA-treatment of cells and the production of nicotine occured thereafter. The levels of mRNA for arginine decarboxylase (ADC), an alternative enzyme for putrescine synthesis, and that for S-adenosylmethionine decarboxylase (SAMDC), required for polyamine synthesis, were not affected by MeJA. In addition to mRNAs for ODC and SAMS, mRNA for putrescine N-methyltransferase (PMT) was also induced by MeJA. Unlike the MeJA-induction of ODC mRNA, MeJA-induction of SAMS and PMT mRNAs were blocked by CHX. The level of ODC mRNA declined after 1 to 4 h following MeJA treatment, while the levels of mRNAs for SAMS and PMT continued to increase. Auxin significantly reduced the MeJA-inducible accumulation of mRNAs for ODC, SAMS and PMT. These results indicate that MeJA sequentially induces expression of a series of genes involved in nicotine biosynthesis by multiple regulatory mechanisms.p>  相似文献   

12.
John Z. Kiss  Fred D. Sack 《Planta》1989,178(1):123-130
The activity of arginine decarboxylase (EC 4.1.1.19) in cultured roots of Hyoscyamus albus L., which produce considerable amounts of tropane alkaloids, was twice that of ornithine decarboxylase (EC 4.1.1.17), both activities being highest during active root growth, whereas arginase (EC 3.5.3.1) activity was negligible. Actively growing roots had putrescine conjugates as their major polyamines, and spermidine was the most abundant free polyamine. Putrescine N-methyltransferase (PMT; EC 2.1.1.53) activity was high, the peak occurring on the sixth day of culture when root growth became slower. Thereafter, the free N-methylputrescine content of the roots increased and was followed by an increase in alkaloid content (mostly hyoscyamine). The amounts of arginine and, especially, of ornithine were low. No N-methylornithine was detected. The PMT activity was present only in root, shoot and cell-suspension cultures of plants that synthesized tropane alkaloids or nicotine; no enzyme activities that methylate ornithine at the -amino group or that decarboxylate -N-methylornithine were detected in any of the cultures tested. Our data indicate that tropane alkaloids in H. albus roots are synthesized by way of the symmetrical putrescine, i.e. a pathway different from that proposed by E. Leete (1962, J. Am. Chem. Soc. 84, 55) according to which these alkaloids are synthesized by way of asymmetrical -N-methylornithine.Abbreviations ADC arginine decarboxylase - ODC ornithine decarboxylase - PCA perchloric acid - PMT putrescine N-methyltransferase  相似文献   

13.
Changes in polyamine biosynthesis in relation to submergence-enhanced shoot elongation were determined in shoots of Scirpus mucronatus L. Under submergence, the levels of free putrescine and the activities of arginine decarboxylase (ADC, EC 4.1.1.19) and ornithine decarboxylase (ODC, EC 4.1.1.17) increased, but the levels of free spermidine and spermine and the activity of S -adenosylmethionine decarboxylase (SAMDC, EC 4.1.1.50) decreased. The increases in free putrescine and shoot elongation in submerged shoots diminished from the base to the apex. The increase in free putrescine in submerged shoots was coincident with the increase in shoot length. The submergence-induced increases in free putrescine and shoot elongation were inhibited by both 5 μ M a -difluoromethylarginine and 5 μ M a -difluoromethylornithine, and the inhibitory effects were reversed by 50 μ M putrescine. These overall results indicate that ADC- and ODC-mediated putrescine synthesis is essential for the elongation of Scirpus shoots grown under submergence.  相似文献   

14.
Transgenic tobacco plants expressing the putrescine synthesis gene ornithine decarboxylase from mouse were raised to study the effects of up-regulation of a metabolic pathway as critical as the polyamine biosynthesis on the plant growth and development, in vitro-morphogenesis and their response to salt stress. Further, the response of the alternate pathway (arginine decarboxylase) for putrescine synthesis to the modulation of the ornithine decarboxylase pathway has also been investigated. The over-expression of the odc gene and increased levels of putrescine in tobacco led to a delay in plant regeneration on selection medium which could be overcome by the exogenous application of polyamine biosynthesis inhibitors and spermidine. Further, the lines generated had a variable in vitro morphogenic potential, which could be correlated to the shifts in their polyamine metabolism. These studies have brought forward the critical role played by polyamines in the normal development of plants and also their role in plant regeneration. Since polyamines are known to accumulate in cells under abiotic stress conditions, the tolerance of the transgenics to salt stress was also investigated and the transgenics with their polyamine metabolism up-graded showed increased tolerance to salt stress.  相似文献   

15.
Isotope feeding and inhibitor experiments were performed in order to elucidate the pathway common to polyamine and alkaloid biosynthesis in root cultures of Senecio vulgaris L. -Difluoromethylarginine, a specific inhibitor of arginine decarboxylase, prevented completely the incorporation of radioactivity from [14C]arginine and [14C]ornithine into spermidine and the pyrrolizidine alkaloid senecionine N-oxide. In contrast, -difluoromethylornithine, a specific ornithine-decarboxylase inhibitor, had no effect on the flow of radioactivity from labelled ornithine and arginine into polyamines and alkaloids. Thus, putrescine, the common precursor of polyamines and pyrrolizidine alkaloids, is exclusively derived via the arginine-agmatine route. Ornithine is rapidly transformed into arginine. Recycling of the guanido moiety of agmatine back to ornithine can be excluded. Putrescine and spermidine were found to be reversibly interconvertable and to excist in a highly dynamic state. In contrast, senecionine N-oxide did not show any turnover but accumulated as a stable metabolic product. In-vivo evidence is presented that the carbon flow from arginine into the polyamine/alkaloid pathway may be controlled by spermidine. The possible importance of the metabolic coupling of pyrrolizidine-alkaloid biosynthesis to polyamine metabolism is discussed.Abbreviations DFMA D,l--difluoromethylarginine - DFMO D,l--difluoromethylornithine - FW fresh weight  相似文献   

16.
Three tobacco cell lines have been analyzed which are resistant to lethal inhibitors of either putrescine production or conversion of putrescine into polyamines. Free and conjugated putrescine pools, the enzymic activities (arginine, ornithine, and S-adenosylmethionine decarboxylases), and the growth characteristics during acidic stress were measured in suspension cultures of each cell line. One cell line, resistant to difluoromethylornithine (Dfr1) had a very low level of ornithine decarboxylase activity which was half insensitive to the inhibitor in vitro. Intracellular free putrescine in Dfr1 was elevated 10-fold which was apparently due to a 20-fold increase in the arginine decarboxylase activity. The increased free putrescine titer was not reflected in an increased level of spermidine, spermine, or putrescine conjugation. Dfr1 cultures survived acidic stress at molarities which were lethal to wild type cultures. Two other mutants, resistant to methylglyoxal bis(guanylhydrazone) (Mgr3, Mgr12), had near normal levels of the three decarboxylases and normal titers of free putrescine, spermidine, and spermine. Both mutants however had elevated levels of conjugated putrescine. Mgr12 had an increased sensitivity to acidic medium. These results suggest that increased levels of free putrescine production may enhance the ability of tobacco cells to survive acid stress. This was supported by the observation that cytotoxic effects of inhibiting arginine decarboxylase in wild type cell lines were dependent on the acidity of the medium.  相似文献   

17.
Bajaj S  Rajam MV 《Plant physiology》1996,112(3):1343-1348
We have shown (S. Bajaj and M.V. Rajam [1995] Plant Cell Rep 14: 717-720) that a significant reduction in morphogenetic potential occurs in callus cultures of rice (Oryza sativa L. cv TN-1) (up to 1 year old), and that plant regeneration could be improved in such cultures with spermidine treatment. We now show a near loss in plant regeneration capacity, concomitant with massive polyamine accumulation (primarily the diamine putrescine), due to the increase in arginine decarboxylase activity and an altered putrescine-to-spermidine ratio in 20- and 36-month-old rice callus cultures. The blockage of polyamine accumulation due to the reduction in arginine decarboxylase activity by a putrescine synthesis inhibitor, [alpha]-difluoromethylarginine, completely restored plant regeneration capacity in these long-term cultures. Additionally, spermidine treatment of long-term cultures caused an increase in cellular spermidine content and a reduction in putrescine content and arginine decarboxylase activity, leading to an adjustment in putrescine-to-spermidine ratio and the restoration of plant regeneration ability.  相似文献   

18.
Five polyamines which could be separated by high performance liquid chromatography were found in Acanthamoeba castellanii (strain Neff). These included in order of decreasing abundance: 1,3-diaminopropane, spermidine, spermine, norspermidine, and putrescine. Only diaminopropane and norspermidine had been found previously. Spermine was present in cultures grown in broth, but not in defined medium. Radioactive substrates were used to establish that putrescine was synthesized by decarboxylation of ornithine, ornithine was synthesized from arginine or citrulline, and diaminopropane was synthesized from spermidine. The presence of ornithine decarboxylase (EC 4.1.1.17), arginase (EC 3.5.3.1), and urease (EC 3.5.1.5) and the absence of arginine decarboxylase (EC 4.1.1.19) were established. A scheme for polyamine biosynthesis in A. castellanii is proposed.  相似文献   

19.
The genes (adc and odc) for two enzymes, arginine decarboxylase and ornithine decarboxylase involved in polyamine biosynthesis, were introduced into anther-derived calli of Datura innoxia through Agrobacterium tumefaciens. The transformed calli exhibited increased regeneration frequency as compared to control. Transgenic lines showed higher polyamine levels, mainly in the putrescine titre, and such lines also yielded a high level of the alkaloid, hyoscyamine. The results suggest that polyamines can modulate in vitro morphogenesis and polyamine biosynthetic pathway can be exploited for enhancement of polyamine-derived alkaloids of pharmaceutical importance.  相似文献   

20.
In the short-day plant, strawberry (Fragaria ananassa Duch.), polyamines (putrescine, spermidine and spermine), conjugated spermidine (water-insoluble compounds) and bound amines (putrescine, spermidine, phenylethylamine, 3-hydroxy, 4-methoxyphenylethylamine) accumulated in the shoot tips during floral induction and before floral emergence. Different associations of free amines and conjugated amines were observed during floral induction, as compared with the reproductive phase. During the whole period of floral development, phenylethylamine (an aromatic amine) was the predominant amine, representing 80 to 90% of the total free amine pool. Phenylethylamine conjugates (water-insoluble compounds) were the predominant amides observed prior to fertilization. These substances decreased drastically after fertilization. In vegetative shoot tips from plants grown continously under long days, free polyamines (putrescine, spermidine) and bound polyamines (putrescine, spermidine) were low and no change was observed. Free amines (spermine and phenylethylamine), bound aromatic amines (phenylethylamine, 3-hydroxy, 4-methoxyphenylethylamine), conjugated spermidine and phenylethylamine did not appear. Male-sterile flowers were distinguished by their lack of conjugated spermidine and phenylethyalamine and by a decrease in free phenylethylamine. In normal and sterile strawberry plants -DL-difluoromethylornithine (DFMO), a specific irreversible inhibitor of ornithine decarboxylase (ODC), caused inhibition of flowering and free and polyamine conjugates. When putrescine was added, polyamine titers and flowering were restored. A similar treatment with -DL-difluoromethylarginine (DFMA), a specific, irreversible inhibitor of arginine decarboxylase (ADC), did not affect flowering and polyamine titers. These results suggest that ornithine decarboxylase (ODC) and polyamines are involved in regulating floral initiation in strawberry. The relationship between polyamines, aromatic amines, conjugates, floral initiation and male sterility is discussed.Abbreviations ADC arginine decarboxylase - ODC ornithine decarboxylase - DFMA -DL-difluoromethylarginine - DFMO -DL-difluoromethylornithine - Put putrescine - Spd spermidine - Spm spermine - Phen phenylethylamine - 3H4M Phen 3-hydroxy, 4-methoxyphenylethylamine  相似文献   

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