Changes in Amount of Polyphenols and Activity of Related Enzymes during Growth of Tobacco Flower and Capsule

Developmental stages of tobacco (Nicotiana tabacum L. cv. Burley 21) flower and capsule were correlated with tissue contents of polyphenols and activities of phenylalanine ammonialyase, polyphenoloxidase, and peroxidase. Chlorogenic acid, scopolin, and scopoletin were present in most tissues, whereas rutin and two dihydroxyphenolic glycosides concentrated primarily in the corolla and placenta, respectively. Ovules contained only chlorogenic acid. As development progressed, polyphenols accounted for nearly 15% of the dry weight in the green capsule of field-grown plants. Fertilization triggered a rapid increase of chlorogenic acid in the ovary. When l-phenylalanine-U-(14)C was fed to the detached green capsules and capsule parts, an incorporation of radioactivity into chlorogenic acid and dihydroxyphenolic glycosides occurred which suggested in situ synthesis of these compounds. This was subtantiated by a positive correlation between phenylalanine ammonia-lyase activity and polyphenol accumulation. High polyphenoloxidase activity was associated mainly with the ovary, whereas peroxidase activity was maximal during senescence of all tissues. Polyacrylamide gel slab electrophoresis revealed five cathodic bands and one diffuse zone with poly-phenoloxidase activity in flower extracts. Two anodic poly-phenoloxidase isozymes appeared only in the fertilized ovary. Among 17 peroxidase isozymes, six cathodic forms were present throughout floral development, and the anodic ones increased in number and activity at the later stages of capsule growth.     

Relationship between the enzymatic browning and phenylalanine ammonia-lyase activity of cut lettuce, and the prevention of browning by inhibitors of polyphenol biosynthesis.

Cut lettuce stored at 4 degrees C gradually turned brown on the cut section after several days of storage. Three factors for enzymatic browning, the polyphenol content, polyphenol oxidase activity, and phenylalanine ammonia-lyase (PAL) activity, were examined during the cold storage of cut lettuce. A relationship between the browning and PAL activity was apparent. We tried to prevent this browning by using the two enzyme inhibitors, 2-aminoindane-2-phosphonic acid (AIP), an inhibitor of the phenylpropanoid pathway, and glyphosate, an inhibitor of the shikimate pathway. AIP and glyphosate significantly inhibited the browning of cut lettuce. The polyphenol content and PAL activity were both reduced by the treatment with AIP. These results show that regulating the biosynthesis of polyphenols is essential to prevent the browning of cut lettuce.     

Correlation between Chlorophyll and Chlorogenic Acid Content in Tobacco Leaves

Developmental stages of tobacco (Nicotiana tabacum L. cv. Burley 21) flower and capsule were correlated with tissue contents of polyphenols and activities of phenylalanine ammonialyase, polyphenoloxidase, and peroxidase. Chlorogenic acid, scopolin, and scopoletin were present in most tissues, whereas rutin and two dihydroxyphenolic glycosides concentrated primarily in the corolla and placenta, respectively. Ovules contained only chlorogenic acid. As development progressed, polyphenols accounted for nearly 15% of the dry weight in the green capsule of field-grown plants. Fertilization triggered a rapid increase of chlorogenic acid in the ovary. When l-phenylalanine-U-¹⁴C was fed to the detached green capsules and capsule parts, an incorporation of radioactivity into chlorogenic acid and dihydroxyphenolic glycosides occurred which suggested in situ synthesis of these compounds. This was subtantiated by a positive correlation between phenylalanine ammonia-lyase activity and polyphenol accumulation. High polyphenoloxidase activity was associated mainly with the ovary, whereas peroxidase activity was maximal during senescence of all tissues. Polyacrylamide gel slab electrophoresis revealed five cathodic bands and one diffuse zone with poly-phenoloxidase activity in flower extracts. Two anodic poly-phenoloxidase isozymes appeared only in the fertilized ovary. Among 17 peroxidase isozymes, six cathodic forms were present throughout floral development, and the anodic ones increased in number and activity at the later stages of capsule growth.     

Polyphenol metabolism of developing apple skin of a scab resistant and a susceptible apple cultivar

During fruit development, the concentration of main polyphenols (flavonols, flavanols, dihydrochalcones, hydroxycinnamic acids, anthocyanins) and the activities of related enzymes (phenylalanine ammonia lyase, chalcone synthase/chalcone isomerase, flavanone 3-hydroxylase, dihydroflavonol 4-reductase, flavonol synthase, peroxidase) were monitored in apple (Malus domestica Borkh.). The seasonal survey was performed at five different sampling dates and included the healthy peel of the resistant cultivar ‘Florina’ and healthy peel, scab symptomatic spot and the tissue around the infected spot of the susceptible cultivar ‘Golden Delicious’. From all enzymes tested, chalcone synthase/chalcone isomerase had the highest activity in both cultivars, while phenylalanine ammonia lyase had the lowest. The healthy peels of the susceptible and the resistant cultivar did not show differences in the accumulation of the main polyphenol groups present in the apple skin. However, in the resistant cultivar ‘Florina’, an increase of polyphenol enzyme activities could be observed in late stages of fruit development, which seems to be related to the anthocyanin accumulation in ripe fruits. Significant differences in the polyphenol metabolism were observed in the three different tissues of the susceptible cultivar ‘Golden Delicious’. Increased concentrations of hydroxycinnamic acids, dihydrochalcones and flavan-3-ols were found in the scab symptomatic spots and surrounding tissues. Phenylalanine ammonia-lyase, dihydroflavonol 4-reductase, flavanone 3-hydroxylase and peroxidase showed higher activities in the scab symptomatic spot compared to other analysed tissues, whereas the activities of other enzymes remained unchanged. Highest induction of polyphenol accumulation after scab infection was observed in early developmental stages, whereas enzyme activities were increased in later stages.     

Carbohydrate influence on polyphenol accumulation inCassia andDatura tissues culturedin vitro

Carbohydrate requirement for the growth of the cells and accumulation of polyphenols in culturedCassia fistula L. andDatura metel L. tissues were examined. Superiority of suerose over other carbohydrates was observed both for the growth of the cells and for the maximum production of phenolic compounds; and its availability was found to be a limiting factor for the synthesis of phenolic compounds. Progressive changes in the pattern of peroxidase and phenylalanine ammonia-lyase (PAL) activities were followed and the relationship between the development of the enzyme activities and synthesis of polyphenols was further examined. The significance of peroxidase and PAL in the regulation of phenolic production is discussed in the light of recent findings.     

Ethylene-induced Phenylalanine Ammonia-Lyase Activity in Carrot Roots

Ethylene enhanced the activity of phenylalanine ammonialyase in carrot (Daucus carota L., var. “Nauty”) root tissue. Slight increase in enzyme activity was exhibited by root discs incubated in ethylene-free air. It was probably due to the ethylene formed within the sliced tissue. Addition of ethylene to the air stream increased phenylalanine ammonia-lyase activity and the total protein content of the discs until maximum activity was reached after 36 to 48 hours of incubation. The continuous presence of ethylene was required to maintain high level of activity. Ethylene, at a concentration of 10 microliter per liter induced higher activity than at lower or higher concentrations. CO₂ partially inhibited the ethylene-induced activity. Cycloheximide or actinomycin D effectively inhibited the ethylene-induced activity in discs that had not previously been exposed to ethylene. The results appear to support the hypothesis that the mode of action of ethylene may involve both de novo synthesis of the enzyme protein and protection or regulation of activity of the induced enzyme.     

Ethylene-enhanced Synthesis of Phenylalanine Ammonia-Lyase in Pea Seedlings

The effect of ethylene on the development of phenylalanine ammonia-lyase activity in segments excised from the epicotyl apex of pea seedling was studied. Although there was some increase in phenylalanine ammonia-lyase activity in segments not treated with ethylene, a marked increase in phenylalanine ammonia-lyase activity occurred in ethylene-treated tissues during the incubation. The induction period was estimated to be about 6 hours. The activity reached a maxmum at 30 hours and then declined. On withdrawal of ethylene, the increase was sustained for a short period and then stopped. After retreatment with ethylene, the increase was resumed. Addition of CO₂ reduced the effect of ethylene. Administration of cycloheximide or actinomycin D at an early period almost completely suppressed the increase in phenylalanine ammonia-lyase activity. However, if these inhibitors were administered at a later period, while phenylalanine ammonia-lyase activity was approaching a maximum, they not only failed to reduce but rather stimulated the activity. These results are consistent with the view that there exist both phenylalanine ammonia-lyase-synthesizing and -inactivating systems, and that the development of both systems may involve de novo synthesis of protein.     

Cinnamaldehyde inhibits phenylalanine ammonia-lyase and enzymatic browning of cut lettuce

Stored cut lettuce gradually turns brown on the cut section after several days of storage, because cutting induces phenylalanine ammonia-lyase (PAL) activity, the biosynthesis of polyphenol is promoted, and the polyphenols are oxidized by polyphenol oxidase. In this study, we screened for inhibitors of PAL derived from fermented broths of microbes and from foods and found that a cinnamon extract definitely inhibited PLA of cut lettuce. An active component was isolated by chromatographic procedures and was identified as trans-cinnamaldehyde. Browning of cut lettuce immersed in a solution containing trans-cinnamaldehyde was definitely repressed.     

Ethylene production in rice bronzing leaves induced by ferrous iron

Bronzing, a nutritional disorder of rice plants which is widely distributed in tropical lowlands, was induced by dipping the cut end of rice leaves into FeSO₄ solution (pH 3.5). Ethylene production; the activities of peroxidase, polyphenol oxidase, and phenylalanine ammonia-lyase; and the effects of Co²⁺, aminoethoxyvinylglycine, Ag⁺, cycloheximide, and 1-aminocyclopropane-1-carboxylate, were investigated in the course of bronzing development. It was found that ethylene production could be stimulated up to about 20 times that of the control by Fe²⁺, and a peak could be reached at about 24 h after incubation. The Fe²⁺-treated leaves also had 10-fold higher peroxidase activity than the control, whereas in vitro enzyme activity was inhibited by Fe²⁺. Cycloheximide retarded in vivo stimulation of peroxidase, indicating that in vivo stimulation resulted from inducing de novo synthesis of the enzyme. No changes in the activities of phenylalanine ammonia-lyase and polyphenol oxidase were observed. The results, obtained from the incubation of leaves with Co²⁺, aminoethoxyvinylglycine, Ag⁺, cycloheximide, or 1-aminocyclopropane-1-carboxylate, showed that ethylene production was the effect of Fe²⁺ stress and that it was not involved in the process of bronzing development, which is probably an acclimation process to enable plants to cope with stress. The accelerated peroxidase activity may be associated with bronzing development.Abbreviations ACC 1-aminocyclopropane-1-carboxylic acid - AVG aminoethoxyvinylglycine - EFE ethylene forming enzyme - PAL phenylalanine ammonia-lyase - POD peroxidase - PPO polyphenol oxidase - SE standard error     

Wound-induced phenylalanine ammonia-lyase in potato (Solanum tuberosum) tuber discs. Significance of glycosylation and immunolocalization of enzyme subunits.

1. Excised discs of potato (Solanum tuberosum) tuber were incubated with [3H]fucose and extracts were prepared and incubated with an antibody to phenylalanine ammonia-lyase. Analysis of the resulting immunoprecipitated proteins by SDS/PAGE showed [3H]mannose- and [3H]fucose-labelled bands with Mr values corresponding to those of phenylalanine ammonia-lyase subunits. 2. When potato discs were incubated with [3H]sugars in the presence of tunicamycin, an inhibitor of N-linked protein glycosylation, incorporation of radioactivity from [3H]mannose into the immunoprecipitated enzyme subunits was virtually eliminated, whereas that from [3H]fucose was only marginally inhibited. 3. Tunicamycin reduced the level of extractable phenylalanine ammonia-lyase activity induced in excised potato tuber discs. Kinetic analysis revealed that the Vmax value of the enzyme in crude extracts from tunicamycin-treated tissue was reduced, whereas the apparent Km values were unaffected. 4. Immunoprecipitation of the enzyme labelled in vivo with [35S]methionine showed that tunicamycin did not inhibit the synthesis of the enzyme protein per se, nor did it increase the degradation of the enzyme protein. 5. Immunoprecipitation of the enzyme labelled in vitro with [14C]nitromethane showed that tunicamycin did not affect the introduction of the dehydroalanine residue into the active site. 6. These results are consistent with the following hypothesis: tunicamycin inhibits the N-linked glycosylation of phenylalanine ammonia-lyase which, in turn, results in imperfect folding of the enzyme protein. The orientation of the active site is changed in such a way that the affinity of the enzyme for its substrate is unaffected, whereas the catalytic activity of the enzyme is reduced. 7. Both optical- and electron-microscopic immunolocalization studies with antibody to phenylalanine ammonia-lyase showed increased deposition of silver granules in cells in sections of potato discs in which induction of the enzyme was allowed to occur compared with cells from newly wounded tissue. The enzyme was located in the cytoplasm, and was possibly membrane-associated.     

Cinnamaldehyde Inhibits Phenylalanine Ammonia-Lyase and Enzymatic Browning of Cut Lettuce

Stored cut lettuce gradually turns brown on the cut section after several days of storage, because cutting induces phenylalanine ammonia-lyase (PAL) activity, the biosynthesis of polyphenol is promoted, and the polyphenols are oxidized by polyphenol oxidase. In this study, we screened for inhibitors of PAL derived from fermented broths of microbes and from foods and found that a cinnamon extract definitely inhibited PLA of cut lettuce. An active component was isolated by chromatographic procedures and was identified as trans-cinnamaldehyde. Browning of cut lettuce immersed in a solution containing trans-cinnamaldehyde was definitely repressed.     

Phenylalanine and tyrosine ammonia-lyase activity in Sporobolomyces pararoseus

Phenylalanine ammonia-lyase from Sporobolomyces pararoseus was purified more than 450-fold. Polyacrylamide disc gel electrophoresis of this purified enzyme gave a single major protein band. Tyrosine ammonia-lyase activity was monitored during the purification of phenylalanine ammonia-lyase. Deaminating activities for phenylalanine and tyrosine were not separated during the purification process. The existence of one ammonia-lyase with bisubstrate activity is postulated.     

Induction of Phenylalanine Ammonia-lyase in Xanthium Leaf Disks. Photosynthetic Requirement and Effect of Daylength

A cycloheximide-sensitive increase in the activity of phenylalanine ammonia-lyase (EC 4.3.1.5) occurs in Xanthium leaf disks exposed to light. Radioactive ammonia-lyase has been isolated by means of sucrose density gradient centrifugation and starch gel electrophoresis from disks fed l-isoleucine-U-(14)C or l-arginine-U-(14)C. The incorporation of radioactive amino acids into phenylalanine ammonia-lyase together with the inhibitory effects of cycloheximide indicate that the observed increase in enzyme activity involves the induction of lyase synthesis.The light-dependent synthesis of the ammonia-lyase is completely inhibited by 50 mum 3-(4-chlorophenyl)-1,1-dimethylurea (CMU) indicating that photosynthesis is involved. Only a trace quantity of some photosynthetic product must be needed because half light saturation occurs at very low intensity (ca. 30 ft-c). Exogenous carbohydrate is also required for continuing enzyme synthesis over a 72 hr period. But carbohydrate does not replace the photosynthetic requirement in darkness.Enzyme formed in light disappears rapidly from disks placed in the dark. The decay of ammonia-lyase activity follows first order kinetics. The half-life of the lyase ranged from 6 to 15 hr in leaf material used. Cyoloheximide inhibits the decay of lyase activity. Thus the maintenance of turnover in Xanthium leaf disks requires de novo synthesis of protein. That turnover, i.e., degradation as well as synthesis of lyase protein occurs is suggested by the apparent loss of radioactive ammonia-lyase from leaf disks placed in darkness. Light-induced synthesis coupled with rapid turnover can produce a diurnal fluctuation of ammonia-lyase activity in Xanthium leaf disks. Alternating periods of enzyme synthesis and degradation were observed in disks exposed to 24 hr cycles of light and dark. The average level of enzyme activity maintained in the tissue was directly related to the length of the light period. Induction of lyase synthesis was also observed in excised leaves and to a lesser extent in leaves of whole plants.     

Effects of Light and of Fusarium solani on Synthesis and Activity of Phenylalanine Ammonia-Lyase in Peas

Phenylalanine ammonia-lyase was purified from peas, and a specific antiserum against the enzyme was produced in rabbits. The antiserum was used to study the first 8 hours of the phenylalanine ammonia-lyase activity response in two different organs of the pea from different developmental stages and in response to two different stimuli. Etiolated seedlings were pulse-labeled with l-[(35)S]methionine after either no light exposure or after specific periods of irradiation with blue light. Immature pods were pulse labeled with mixed l-[(3)H]amino acids after specific time periods following inoculation of the pod endocarp surfaces with macroconidia of Fusarium solani. Immunoprecipitates isolated from extracts of each group were analyzed with sodium dodecyl sulfate disc gel electrophoresis and were found to contain a radioactive protein with an electrophoretic mobility identical to that of the phenylalanine ammonia-lyase subunit (M(r) 81,000). The radioactivity contained in the subunit band was interpreted as being due to de novo synthesis of the enzyme. The net rate of phenylalanine ammonia-lyase labeling, found to be initially low in both tissue types, rose dramatically, peaking at approximately a six- to ten-fold greater level at 4 hours after the beginning of the stimulus. Thereafter, the rate of labeling declined slowly. Inoculation with F. solani f. sp. pisi, a true pathogen of peas, caused a fifty per cent greater rate of peak labeling than did inoculation with a nonpathogen, F. solani f. sp. phaseoli. The time profile of the changing rate of labeling correlates with the changing activity level of the enzyme which peaks at 12 hours after the onset of the stimulus. The data presented favor a model which explains the changing activity of phenylalanine ammonia-lyase as being due to a changing rate of synthesis or degradation (or both) of the enzyme rather than due to the activation of a preformed zymogen.     

Positive effects of temperature and growth conditions on enzymatic and antioxidant status in lettuce plants

The contents of two bioactive compounds (polyphenols and flavonoids) and their antioxidant and enzyme activities were determined in the leaves of six lettuce (Latuca sativa L.) cultivars subjected to 4 different day/night temperatures for 6 weeks.The total polyphenol and anthocyanin contents and the corresponding antioxidant activities were the highest at 13/10 °C and 20/13 °C, followed by 25/20 °C and 30/25 °C. The enzymatic activities of polyphenol oxidase (PPO) and phenylalanine ammonia-lyase (PAL) were also the highest at low day/night temperatures, but the peroxidase (POD) activity was decreased at low day/night temperatures and increased at high day/night temperatures.The most significant positive correlation existed between anthocyanin content and PPO activity, total polyphenols and their antioxidant activities. The results showed that at relatively low temperatures, lettuce plants have a high antioxidant and enzymatic status. These results provide additional information for the lettuce growers.     

Synthesis and degradation of phenylalanine ammonia-lyase of Rhodosporidium toruloides.

The regulation of the enzyme phenylalanine ammonia-lyase (PAL), which is of potential use in oral treatment of phenylketonuria, was investigated. Antiserum against PAL was prepared and was shown to be monospecific for the enzyme by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The native enzyme and two inactive mutant forms of the enzyme were purified to homogeneity by immunoaffinity chromatography, using anti-PAL immunoglobulin G-Sepharose 4B. Both mutant enzymes contained intact prosthetic groups. The formation of PAL catalytic activity after phenylalanine was added to yeast cultures was paralleled by the appearance of enzyme antigen. During induction, uptake of [3H]leucine into the enzyme was higher than uptake into total protein. Our results are consistent with de novo synthesis of an enzyme induced by phenylalanine, rather than activation of a proenzyme. The half-lives of PAL and total protein were similar in both exponential and stationary phase cultures. No metabolite tested affected the rate of enzyme degradation. Glucose repressed enzyme synthesis, whereas ammonia reduced phenylalanine uptake and pool size and so may repress enzyme synthesis through inducer exclusion. The synthesis of enzyme antigen by a mutant unable to metabolize phenylalanine indicated that this amino acid is the physiological inducer of the enzyme.     

Control at the level of substrate supply—an alternative in the regulation of phenylpropanoid accumulation in plant cells

The problem of the intracellular mechanisms responsible for the control of accumulation of phenylalanine-derived polyphenols in plants is considered. Possible control functions of phenylalanine ammonia lyase (PAL) in this process are critically discussed and experimental facts are surveyed providing evidence that substrate (phenylalanine) supply rather than enzymic (PAL) activity is the most likely limiting factor in controlling phenylpropanoid accumulation. These facts involve: frequent lack of consistent correlation between changes in the level of PAL and accumulation rate of phenylpropanoids, high deaminating capacity of PAL markedly exceeding the level required to sustain the formation of polyphenols in most tissues, stimulatory action of phenylalanine on polyphenol accumulation when administered externally, very low and constant levels of free endogenous phenylalanine in plant tissues, and the existence of balanced relationship between protein metabolism and the formation of flavonoids and cinnamic acid derivatives in plants.     

Synthesis of phenylalanine ammonia-lyase in anthocyanin-containing and anthocyanin-free callus cells of Daucus carota L.

When callus cells of Daucus carota are grown on a medium containing gibberellic acid (GA₃) in a physiological concentration of 3x10^-6 M the cells cease to accumulate anthocyanins. This anthocyanin-free cell line has a very low activity of phenylalanine ammonia-lyase. After density labelling with D₂O an intensive de novo synthesis of the phenylalanine ammonia-lyase (E.C. 4.3.1.5; PAL) in the anthocyanin-containing cells does occur. 58% of the C-bound H-atoms are replaced by deuterium. The anthocyanin-free cells show only a very low enzyme synthesis which is difficult to detect with density labelling experiments. To ascertain that de novo synthesis occurs in the anthocyanin-free cells, the incorporation of ¹⁴C-labelled amino acids into the partially purified enzyme protein was measured after separation of the protein a) in CsCl gradients and b) on polyacrylamide gels. In both cases the enzyme bears ¹⁴C-label. These results suggest that in the anthocyanin-free cells de novo synthesis of PAL is still occuring but the synthesis is reduced in comparison to the anthocyanin-containing cells.Abbreviations GA₃ gibberellic acid - PAL phenylalanine ammonia-lyase (E.C.4.3.1.5) - DCb anthocyanin-containing cells - DCw anthocyanin-free cells