Inhibition of polyamine synthesis reduces the growth rate and delays the expression of differentiated phenotypes in primary cultures of embryonic mesoderm from chick

Summary Inhibition of polyamine synthesis in early chick embryos blocks their development at gastrulation. Analyses of arrested embryos show that mesodermal outgrowth and differentiation are drastically impaired. To study these effects in greater detail, we have used primary cultures of embryonic mesoderm from chick. The cultures were treated with -difluoromethylornithine (DFMO), an enzyme-activated irreversible inhibitor of ornithine decarboxylase, the first and rate-limiting enzyme in polyamine synthesis. In control culture medium, mesodermal cells retained their in ovo outgrowth behavior and differentiation pattern. Addition of 10 mM DFMO to the culture medium, however, retarded attachment and outgrowth, and reduced the rate of proliferation of the mesodermal cells. Furthermore, the expression of differentiated phenotypes, such as beating heart tissue, erythroid cells, and adipocyte-like cells, was delayed. Simultaneous addition of 100 M putrescine prevented or reduced the effects of DFMO, showing that these were indeed caused by polyamine deficiency. In the DFMO-treated mesoderm, DNA synthesis was markedly suppressed by the first day. Similar effects on RNA and protein synthesis developed at a later time. Our data suggest that a reduction in the concentrations of the polyamines decreases the rate of mesodermal cell proliferation, and as a conseqence delays the expression of differentiated phenotypes.     

Studies on the biosynthesis of tropane alkaloids in Datura stramonium L. transformed root cultures

The relative contributions made by the l-arginine/agmatine/N-carbamoylputrescine/putrescine and the l-ornithine/putrescine pathways to hyoscyamine formation have been investigated in a transformed root culture of Datura stramonium. The activity of either arginine decarboxylase (EC 4.1.1.19) or ornithine decarboxylase (EC 4.1.1.17) was suppressed in vivo by using the specific irreversible inhibitors of these activities, dl--difluoromethylarginine or dl--difluoromethylornithine, respectively. It was found that suppression of arginine decarboxylase resulted in a severe decrease in free and conjugated putrescine and in the putrescine-derived intermediates of hyoscyamine biosynthesis. In contrast, the suppression of ornithine decarboxylase activity stimulated an elevation of arginine decarboxylase and minimal loss of metabolites from the amine and alkaloid pools. The stimulation of arginine decarboxylase was not, however, sufficient to maintain the same potential rate of putrescine biosynthesis as in control tissue. It is concluded that (i) in Datura the two routes by which putrescine may be formed do not act in isolation from one another, (ii) arginine decarboxylase is the more important activity for hyoscyamine formation, and (iii) the formation of polyamines is favoured over the biosynthesis of tropane alkaloids. An interaction between putrescine metabolism and other amines is also indicated from a stimulation of tyramine accumulation seen at high levels of dl--difluoromethylornithine.Abbreviations ADC arginine decarboxylase - DFMA dl--dif-luoromethylarginine - DFMO dl--difluoromethylornithine - MPO N-methylputrescine oxidase - ODC ornithine decarboxylase - PMT putrescine N-methyltransferase We are indebted to Dr. E.W.H. Bohme of Merrell Dow Research Laboratories (Cincinnati, Ohio, USA) for kind gifts of DFMO and DFMA and to Dr. M.J.C. Rhodes for helpful advice and discussion.     

Lambda red-mediated synthesis of plasmid linear multimers in Escherichia coli K12

Summary Expression of the red ⁺ and gam ⁺ genes of bacteriophage in plasmids cloned in Escherichia coli wild-type cells leads to plasmid linear multimer (PLM) formation. In mutants that lack exonuclease I (sbcB sbcC), either of these functions mediates PLM formation. In order to determine whether PLM formation in sbcB sbcC mutants occurs by conservative (break-join) recombination of circular plasmids or by de novo DNA synthesis, thyA sbcB sbcC mutants were transferred from thymine- to 5-bromo-2-deoxyuridine (BUDR)-supplemented medium, concurrently with induction of red ⁺ or gam ⁺ expression, and the density distribution of plasmid molecular species was analyzed. After a period of less than one generation in the BUDR-supplemented medium, most PLM were of heavy/heavy density. Circular plasmids, as well as chromosomal DNA, were of light/light or light/heavy density. These results indicate that Red or Gam activities mediate de novo synthesis of PLM in sbcB sbcC mutants. Examination of plasmid DNA preparations from sbcB sbcC mutants expressing gam ⁺ or red ⁺ reveals the presence of two molecular species that may represent intermediates in the PLM biosynthesis pathway: single-branched circles (-structures) and PLM with single-stranded DNA tails. While Gam-mediated PLM synthesis in sbcB mutants depends on the activity of the RecF pathway genes, Red-mediated PLM synthesis, like Red-mediated recombination, is independent of recA and recF activities. One of the red ⁺ products, protein, suppresses RecA deficiency in plasmid recombination and PLM synthesis in RecBCD^– Exol^– cells. The dependence of PLM synthesis on the RecE, RecF or Red recombination pathways and the dependence of plasmid recombination by these pathways on activities that are required for plasmid replication support the proposal that PLM synthesis and recombination by these pathways are mutually dependent. We propose the hypothesis that DNA double-stranded ends, which are produced in the process of PLM synthesis, are involved in plasmid recombination by the RecE, RecF and Red pathways. Conversely, recombination-dependent priming of DNA synthesis at 3 singles-tranded DNA ends is hypothesized to initiate PLM synthesis on circular plasmid DNA templates.Abbreviations PLM plasmid linear multimers - BUDR 5-bromo-2-deoxyuridine - bp base pair     

SERK Gene Homolog Expression,Polyamines and Amino Acids Associated with Somatic Embryogenic Competence of Ocotea catharinensis Mez. (Lauraceae)

In the present work, we investigate the association of SERK gene homolog expression, polyamines (PAs) and amino acids related to putrescine synthesis (arginine and ornithine) and polyamines degradation (-aminobutiric acid) or S-adenosylmethionine synthesis (methionine), with the embryogenic competence in cell aggregates of Ocotea catharinensis Mez. (Lauraceae). Cell aggregates were cultivated during 7 days in woody plant medium (WPM) supplemented with 20 g l^–1 sucrose, 22 g l^–1 sorbitol, 400 mg l^–1 glutamine and 2 g l^–1 phytagel, and in Murashige and Skoog medium (MS) supplemented 20 g l^–1 sucrose, 3 g l^–1 activated charcoal, 2 g l^–1Phytagel with and without 40 mg l^–1 2,4-dichlorophenoxyacetic acid (2,4-D). The cell aggregates cultivated in MS plus 2,4-D and in the WPM medium showed hybridization with a SERK gene homolog both in northern and in situ hybridization experiments. Cell aggregates cultivated in an MS basal medium, without 2,4-D, did not exhibit any hybridization signal to the SERK probe used, thus they were considered potentially non-embryogenic cells. In all three media only free polyamines were detected. The higher putrescine levels occurring in WPM callus were associated with a higher arginine and ornithine content, lower -aminobutiric acid level, and SERK homolog expression. Putrescine was also the major polyamine in the MS medium. In the MS plus 2,4-D medium, the levels of putrescine, spermidine and spermine were similar. Spermine exhibited similar and the lowest levels in all media. Spermidine intermediary levels occurred in the WPM and MS media. In cell aggregates methionine level was lowest in the MS plus 2,4-D medium, but similar in the MS and WPM media.     

Reversal of the growth inhibitory effect of α-difluoromethylornithine by putrescine but not by other divalent cations

Summary Treatment with -difluoromethylornithine (DFMO), an enzyme-activated irreversible inhibitor of ornithine decarboxylase (ODC), depletes the putrescine and spermidine content, and reduces the growth rate of Ehrlich ascites tumor cells.The addition of putrescine, which is the immediate precursor of spermidine, promptly replenished the intracellular putrescine and spermidine pools and completely reversed the antiproliferative effect of DFMO. A sequential accumulation of spermine, spermidine and putrescine was observed.1,3-diaminopropane, a lower homolog of putrescine, did not reverse the antiproliferative effect of DFMO, despite its structural similarity and identical positive charge. By inhibiting remaining ODC activity, resistant to 5 mM DFMO, and possibly by inhibiting spermine synthase activity, 1,3-diaminopropane produced a further decrease in total polyamine content by reducing the spermine content.Mg²⁺, which can replace putrescine in many in vitro reactions, completely lacked the capacity to reverse the antiproliferative effect of putrescine and spermidine deficiency.Abbreviations DFMO -difluoromethylornithine - ODC ornithine decarbxylase     

In vitro shoot regeneration from leaf discs of Betula pendula ‘Dalecarlica’ EM 85

The effect of zeatin, NAA (-naphthaleneacetic acid), putrescine and cefotaxime on the frequency of shoot regeneration from Betula pendula Dalecarlica EM 85 leaf discs has been examined. About 80% of leaf discs were induced to form adventitious shoots when the culture medium contained 45.6 moll^-1 zeatin and 0.1 mmoll^-1 cefotaxime. The addition of NAA to zeatin-containing media prevented shoot regeneration but stimulated root development directly from leaf tissues. Putrescine (0.1 mmoll^-1) and cefotaxime (0.1 mmoll^-1) could both significantly increase the percentage of leaf discs regenerating on optimal zeatin-containing media, and increase the number of shoots per regenerating disc.Abbreviations NAA -naphthaleneacetic acid - BAP 6-benzyladenine     

Nucleolar transformation in plants grown on clinostats

Summary Cells of carrot calli (Daucus carota L.) grown on clinostats (simulated weightlessness) exhibit increases in nucleolar number and volume. In clinostat-grown whole barley plants (Hordeum vulgare L. cv. Steptoe), nucleoli in 70% of root meristem and root cortical cells in the 1 mm root apex exhibit multiple nodulations after one day of growth. The nucleolar nodules (1.1 m mean diameter) are densely and finely fibrous, distinctly different from the nucleolus in which the content is so compact that the granular component is masked. Control nucleoli (from vertically rotated and stationary seedlings) rarely exhibit nodule-like protrusions, are not compact, and contain a well defined granular component. Proteins that are heat soluble, characteristic of many stress responses, rapidly increase in barley grown on clinostats. Barley growth on clinostats is slowly and steadily inhibited. There is no difference between vertically rotated and stationary controls for any of the parameters measured, indicating that clinostat motion per se does not affect significantly barley development. The evidence taken together suggests that barley plants germinated and grown on clinostats are stressed, the effects of which are expressed sequentially by alteration of nucleolar morphology, increased production of heat-soluble proteins, and decreased plant growth. Similar stress-related changes may be expected to occur in plants subjected to weightlessness during space flight. It is therefore of interest that nucleoli in wheat roots (Triticum aestivum L. cv. Broom) obtained from the space flight IML-1 mission show irregularity that is not observed in any of the ground controls for the flight experiment.Abbreviations Act D actinomycin D - C clinostat rotation - EM electron microscopy - LM light microscopy - R vertical rotation - rDNA ribosomal DNA - S stationary     

An Efficient Synthetic Scheme for Natural α-Conotoxins and Their Analogues

An efficient scheme for the synthesis of -conotoxins, containing 12–18 amino acid residues and two disulfide bridges, was proposed. Its advantages are: (1) the avoidance of orthogonal protections of Cys residues; (2) a lower number of stages in a cycle of the peptide chain elongation by the method of solid phase synthesis; (3) the linear product is sufficiently pure for being used at the next stage of the disulfide bond formation without additional purification; and (4) a substantially reduced time of oxidation to disulfides at pH 10, which led to the target product in a high yield. A number of natural -conotoxins (GI, ImI, EI, MII, and SIA), affecting the muscle and neuronal nicotinic acetylcholine receptors of various types, and several new analogues of these conotoxins (in particular, [Tyr10]ImI, [Gln12]GI, and [Ser1]GI) were synthesized by this scheme. They were used for elucidating the spatial structure of -conotoxins by ¹H NMR spectroscopy and for studying the ligand-binding sites of their receptors.     

Zygote Formation in Blakeslea trispora: Morphological Peculiarities and Relationship with Carotenoid Synthesis

Changes associated with zygospore formation in the mucorous fungus Blakeslea trispora were studied. Zygospores are dormant cells with thickened cell walls and large central lipid vacuoles containing large amounts of lycopene. We established for the first time that B. trispora gametangia of different sexes differ in their carotenoid content and revealed that zygote formation involves a novel structure that consists of densely intertwined hyphae. Using inhibitory analysis (blocking -carotene synthesis with diphenylamine and 2-amino-6-methylpyridine), we showed that suppression of carotene producion results in the inhibition of zygote formation. Hence, we established a manifest dependence of zygote formation on -carotene synthesis.     

Biosynthesis of (1,3)(1,4)-β-glucan and (1,3)-β-glucan in barley (Hordeum vulgare L.)

Mixed membrane preparations from the coleoptiles and first leaves of young barley (Hordeum vulgare L. cv. Triumph) plants catalysed the synthesis of 55% methanol-insoluble labelled material from UDP[U-¹⁴C]glucose, the main components of which were identified as (1,3)(1,4)-- and (1,3)--D-glucans. The membrane preparations also catalysed the transformation of UDP-glucose into labelled low-molecular-weight products, mainly glucose (by phosphatase action), glucose-1-phosphate (by phosphodiesterase action) and glyco(phospho)lipids (by glycosyltransferase action). The formation of (1,3)(1,4)--glucans, (1,3)--glucans, and the other reactions competing for UDP-glucose, were monitored simultaneously and quantitatively by a novel procedure based on enzymatic analysis, thin-layer chromatography and digital autoradiography. Thus it was possible (i) to optimise conditions to obtain (1,3)(1,4)--glucan synthesis or (1,3)--glucan synthesis in isolation, and (ii) to study the influence of temperature, pH, cofactors, substrate concentration etc. on the (1,3)(1,4) and (1,3)--glucan synthesis reactions even when both occurred together. The synthesis of both -glucans was optimal at 20°C. In Tris-HCl buffer, the pH optima for (1,3)(1,4)--glucan synthesis and (1,3)--glucan synthesis were pH 8.5 and pH 7.0, respectively. Both glucan-synthesis reactions required Mg²⁺: (1,3)--glucan synthesis was optimal at 2 mM, whereas (1,3)(1,4)--glucan synthesis continued to increase up to 200 mM Mg²⁺, when the ion was supplied as the sulphate. (1,3)--Glucan synthesis was Ca²⁺ dependent and this dependence could be abolished by proteinase treatment. The K _m with respect to UDP-glucose was 1.5 mM for (1,3)--glucan synthesis and approximately 1 mM for (1,3)(1,4)--glucan synthesis. The (1,3)(1,4)--glucan formed in vitro had the same ratio of trisaccharide to tetrasaccharide structural blocks irrespective of the experimental conditions used during the synthesis: its enzymatic fragmentation pattern was indistinguishable from that of barley endosperm (1,3)(1,4)--glucan. This indicates either a single synthase enzyme, which is responsible for the formation of both linkage types, or two enzymes which are very tightly coupled functionally.Abbreviations G4G4G3G Glc(1,4)Glc(1,4)Glc(1,3)Glc (-linked) - UDP-Glc uridine-5-diphosphate glucose We are grateful to the Commission of the European Communities for the award of Training Fellowships to Christine Vincent and Martin Becker.     

Production of specific-protein secretion granules by fat body cells of the blowfly,Calliphora erythrocephala

Summary During the first four days of the imaginai stage the fat cells of ovariectomized females of Calliphora develop a protein synthetic apparatus, and produce dense bodies (lysosomes) as do the fat cells of normal females, but apparently they cannot synthesize the protein secretion granules that characterize the productive phase of the fat cells of normal females and that we believe to represent vitellogenin. Injection of ovariectomized females with -ecdysone restored the ability of the fat cells to produce the secretion granules. It is suggested that the ovary gives off a factor which induces the production of the protein secretion granules by the fat cells, and that the factor from the ovary can be substituted by -ecdysone. This, we believe, is the first ultrastructural evidence for an effect of the ovary and of -ecdysone on the synthesis of specific protein.We are grateful to the Carlsberg Foundation and to the Danish Science Research Council for generous grants, and to the latter for placing an electron microscope at our disposal. It is a pleasure to thank Dr. Gareth Griffiths for valuable advice as to the preservation of the fat body tissue. We also thank Mrs. Lotte Bakhoj and Mrs. Elsebeth Lund for skilful technical assistance1896–1976     

Uptake of putrescine by Tetrahymena

Summary The uptake of the diamine ³H-putrescine by Tetrahymena pyriformis GL was studied in cultures which were synchronized by heat shocks. An inverse correlation was found between the uptake of putrescine and the acid stability of DNA, but there was also a parallelism between putrescine uptake and the intracellular amount of putrescine. There was no evidence for a transformation of the labeled putrescine to other amino compounds within the cells. Electronmicroscopical autoradiography showed a structure-bound radioactivity localized to nuclear and mitochondrial structures. In the nucleus, both the chromatin and the nucleoli showed labeling.The authors are indebted to fil. kand. Per Arlock, who participated in some preliminary experiments, and to Mrs Siv Nilsson and Mrs Annagreta Petersen for skilful technical assistance. The investigation was financially supported by the Swedish Natural Science Research Council, the Swedish Cancer Society and the C.-B. Nathhorst Scientific Foundation.     

Regulation of N-Methyl-d-aspartate receptor-mediated calcium transport and norepinephrine release in rat hippocampus synaptosomes by polyamines

The role of polyamines (PA) synthesis in NMDA receptor-mediated⁴⁵Ca²⁺ fluxes and norepinephrine release was studied in rat hippocampal synaptosomes. NMDA (50M) caused a sharp (>2-fold) transient increase in PA synthesis regulating enzyme, ornithine decarboxylase (ODC) activity with concomitant elevation in PA levels in the order putrescine>spermidine>spermine. ODC inhibitor, -difluoromethylornithine (DFMO), and NMDA antagonist, 2-amino-5-phosphonovaleric acid (D-AP5), both blocked increases in ODC activity and PA levels. Activation of NMDA receptors induced a sharp (3 to 4-fold) and quick (15 seconds) increase in⁴⁵Ca²⁺ uptake by synaptosomes within 15 seconds of exposure at 37°C. The efflux of⁴⁵Ca²⁺ and³H-norepinephrine (NE) release at 22°C from pre-loaded synaptosomes was also significantly (2 to 4-fold) enhanced by NMDA within 15 seconds. These NMDA receptor-mediated effects on calcium fluxes and NE release were blocked by NMDA receptor-antagonists (DAP-5 and MK-801) and PA synthesis inhibitor, DFMO and the DFMO inhibition nullified by exogenous putrescine. These observations establish that ODC/PA cascade play an important role in transduction of excitatory amino acid mediated signals at NMDA receptors.Special issue dedicated to Dr. Sidney Ochs.     

Polyamine depletion increases cellular ribonucleotide levels

Summary Depletion of the putrescine and spermidine content of Ehrlich ascites tumor cells by -difluoromethylornithine (DFMO) treatment results in at least a 1500-fold increase in the decarboxylated S-adenosylmethionine (deSAM) content. The accumulation of this adenine nucleoside occurs because of the absence of putrescine and spermidine to act as aminopropyl group acceptors in the spermidine and spermine synthase reactions and because of an increase in S-adenosylmethionine decarboxylase activity. The fact that the synthesis of deSAM continues in DFMO-treated cells makes the pathway an adenine trap. This prompted a study of the adenine nucleotide pools. High-performance liquid chromatographic analysis showed that the total adenine nucleotide pool increased, rather than decreased, as a result of DFMO treatment; the major contributors to the increase being ATP and ADP, which increased 2.6 and 1.9 times, respectively. The cellular content of other ribonucleotides increased as well, particularly that of UTP and CTP. When putrescine was added together with DFMO, the increases in cellular ribonucleotide contents were prevented, showing that they were indeed caused by polyamine depletion.     

Enterotoxin A production in Staphylococcus aureus: inhibition by glucose

In this study, we investigated the relationship between carbohydrate metabolism and repression of staphylococcus enterotoxin A (SEA) in Staphylococcus aureus 196E and a pleiotrophic mutant derived from strain 196E. The mutant, designated at strain 196E-MA, lacked a functional phosphoenolpyruvate phosphotransferase system (PTS). The mutant produced acid, under aerobic conditions, from only glucose and glycerol. The parent strain contained an active PTS, and aerobically produced acid from a large number of carbohydrates. Prior growth in glucose led to repression of SEA synthesis in the parent strain; addition to the casamino acids enterotoxin production medium (CAS) led to more severe repression of toxin synthesis. The repression was not related to pH decreases produced by glucose metabolism. When S. aureus 196E was grown in the absence of glucose, there was inhibition of toxin production as glucose level was increased in CAS. The inhibition was related to pH decrease and was unlike the repression observed with glucose-grown strain 196E. The inhibition of SEA synthesis in mutant strain 196E-MA was approximately the same in cells grown with or without glucose and was pH related. Repression of SEA synthesis similar to that seen with glucose-grown S. aureus 196E could not be demonstrated in the mutant. In addition, glucose-grown S. aureus 196E neither synthesized -galactosidase nor showed respiratory activity with certain tricarboxylic acid (TCA) cycle compounds. Glucose-grown strain 196E-MA, however, did not show supressed respiration of TCA cycle compounds; -galactosidase was not synthesized because the mutant lacked a functional PTS. Cyclic adenosine-3, 5-monophosphate did not reverse the repression by glucose of SEA or -galactosidase synthesis in glucose-grown S. aureus 196E. An active PTS appears to be necessary to demonstrate glucose (catabolite) repression in S. aureus.Abbreviations SEA staphylococcal enterotoxin A - SEB staphylococcal enterotoxin B - SEC staphylococcal enterotoxin C - PTS phosphoenolpyruvate phosphotransferase system - CAS casamino acids salts medium - TCA tricarboxylic acid cycle     

Anthocyanin accumulation and PAL activity in a suspension culture of Daucus carota L.

Cells of Daucus carota grown in a liquid medium produced large amounts of cyanidin as the only flavonoid aglycon. After inoculation in fresh medium a maximum activity of phenylalanine ammonia lyase (PAL; EC 4.3.1.5) was observed within 24 h. L--aminooxy--phenylpropionic acid (L-AOPP), thought to be a competitive inhibitor of PAL, inhibited cyanidin accumulation up to 80%. In order to study the regulatory role of PAL, the effects of L-AOPP and t-cinnamic acid, the product of the deamination of phenylalanine, were investigated. Cinnamic acid, applied in vivo (10^-4 M), was not able to compensate for the inhibition of cyanidin production caused by L-AOPP (10^-4 M) in the same sample. Carrot cells treated with L-AOPP exhibited a super-induction of PAL already described for gherkin hypocotyls (Amrhein and Gerhardt 1979). This effect was not influenced by t-cinnamic acid. L-AOPP seems to be a very specific inhibitor since it affected neither growth nor soluble protein content, whereas t-cinnamic acid inhibited both. Investigations on the content of soluble amino acids in L-AOPP-treated cells revealed a specific accumulation of soluble phenylalanine, whereas treatment with t-cinnamic acid led to an increase of amino acids in general, thus indicating that the latter compound has a rather unspecific effect on cellular metabolism. In vitro studies with PAL isolated from Daucus carota revealed that L-AOPP inhibited the enzyme at very low doses (K _I=2.4·10^-9), whereas t-cinnamic acid, by comparison, affected the enzyme at high concentrations (K _I=1.8·10^-4).Abbreviations PAL phenylalanine ammonia lyase - L-AOPP L--aminooxy--phenylpropionic acid     

Biochemical and genetic factors in the heat inactivation of murine β-glucuronidase

The enzymes coded for by two alleles at the glucuronidase structural locus (Gus) were compared in their response to pH, buffering anion, buffer molarity, ionic strength, and temperature. The heat-labile Gus^h gene product responded in a qualitatively similar but quantitatively reduced manner compared to the relatively heat-stable Gus ^b gene product. In all buffers tested, the enzyme was most heat stable at pH 5.0. Ranking of the various buffer anions tested, according to increasing heat stabilization, was water acetate phosphate < citrate. Varying the molarity of the buffers from 0.01 to 0.6 m at pH 5.0 revealed further differences among the buffers. Increasing ionic strength exerted a destabilizing force on the protein. The half-life of the enzyme decreased by as much as a hundredfold between 71 and 75 C. The Gus^h/Gus^h genotype also results in decreased activity levels in all tissues, reportedly because of decreased synthesis. The heat inactivation curves of Gus^b/Gus^h heterozygotes were incompatible with any theoretical curve based on the assumption that the Gus^b and Gus^h chromosomes in the heterozygote behave in a manner similar to that seen in the homozygotes.This research was supported by a Basil O'Connor Starter Research Grant from the National Foundation—March of Dimes (R. J. M.) and by a grant from The Jane Coffin Childs Memorial Fund for Medical Research (K. H.).Fellow of The Jane Coffin Childs Memorial Fund for Medical Research.     

Properties and synthesis de novo of auxin-induced α-amylase in pea cotyledons

Analysis of starch-degrading enzymes in a crude extract of detached cotyledons of Pisum sativum L. by polyacrylamide gel electrophoresis (PAGE) demonstrated the presence of one band of -amylase (EC 3.2.1.1) activity. The activity of only this amylase was promoted in cotyledons incubated with 2,4-dichlorophenoxyacetic acid (2,4-D). The auxin-induced -amylase from pea cotyledons was purified to homogeneity, as judged by the criterion of a single band after PAGE. The relative molecular mass (M_r), estimated by gel filtration, was approx. 42 000 and the enzyme contained no carbohydrate moiety. Sodium dodecylsulfate-PAGE yielded a single band that corresponded to an M_r of 41 000. The isoelectric point was 5.85 and the aminoacid composition was similar to that of -amylase from other plants. When [³H]leucine was fed to detached dry cotyledons prior to incubation, the radioactivity in -amylase from cotyledons incubated in the presence of 2,4-D was found to be approx. 10-fold higher than that from cotyledons incubated in distilled water. When -amylase from cotyledons incubated with ²H₂O that contained 2,4-D and the tritiated amylase were centrifuged together in a CsCl density gradient, the peak of enzymatic activity of deuterated -amylase was shifted to a denser fraction than the peak of radioactivity of the tritiated enzyme. These results show that auxin-induced -amylase in pea cotyledons is synthesized de novo.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - M_r relative molecular mass - PAGE polyacrylamide gel electrophoresis - PAS periodic acid-Schiff - pI isoelectric point - SDS sodium dodecyl sulfate We are very grateful to Mr. Kazuo Itoh and Mrs. Matsumi Doe for carrying out the analysis of amino-acid composition.