Pumpkin (Cucurbita sp.) seed globulin VI. Proteolytic activities appearing in germinating cotyledons

N--benzoyl D,L-arginine p-nitroanilide (BAPA), leucine p-nitroanilide(LPA) and casein hydrolytic activities were assayed in germinatingcotyledons. BAPA hydrolytic activity was not detected in dryseeds, but increased rapidly from 1 to 4 days of germinationand then decreased. LPA and casein hydrolytic activities weredetected in dry seeds and increased from 2 to 4 days. Caseinhydrolytic activity decreased faster than the other two activities. BAPA hydrolytic enzyme was partially purified. It was inhibitedby p-chloromercuribenzoate and activated by ß-mercaptoethanoland dithiothreitol, but was not affected by EDTA, phenylmethylsulfonylfluoride, pumpkin trypsin inhibitor and several divalent cations.It had no ability to hydrolyze globulin or the chain to produce F_ß or smaller polypeptides,respectively, which was referred to as proteolytic activityI in the preceding paper (14), but released small peptides andamino acids from the chain and F_ß. However, it wasdifferent from proteolytic enzyme II which was present in dryseeds and inhibited by EDTA (14). Pumpkin trypsin inhibitor was purified. Its molecular weightwas estimated to be 10,500 by gel filtration. It did not inhibitthe BAPA hydrolytic enzyme. Both proteolytic activities I andII were also not reduced by the inhibitor (14). The inhibitoryactivity decreased gradually during germination. (Received November 9, 1979; )     

Identification and characterization of an {alpha}-mannosidase from Trypanosoma cruzi

In this report we describe the first purification and characterizationof the acid -mannosidase from the human parasite Trypanosomacruzi. The purified enzyme exhibited a native mol. wt of 240000 Da and is apparently composed of four identical subunitsof mol. wt 58 000 Da. Each of the four subunits contains oneN-linked high-mannose-type oligosaccharide. The -mannosidaseexhibited a pH optimum of 3.5 and a pI of 5.9. This low pH optimumand the ability of swainsonine to inhibit its activity suggestthat the -mannosidase is a lysosomal enzyme. Antibodies againstthe T.cruzi enzyme did not react with mammalian lysosomal -mannosidaseand, conversely, antibody against a rat lysosomal -mannosidasedid not react with the T.cruzi enzyme. Thus, the T.cruzi enzymeappears to be distinct from its mammalian counterpart. -mannosidase lysosomal enzyme Trypanosoma cruzi     

Inhibition of Gibberellic Acid-induced Starch Mobilization by Salicylhydroxamic acid in Avena fatua L. Seed

Inhibition of GA₃-induced endosperm mobilization in Avena fatuaL. by salicylhydroxamic acid (SHAM), a widely used alternativerespiration inhibitor, was studied. SHAM strongly inhibitedthe GA₃-induced release of reducing sugars in the incubationmedium by 3 mm de-embryonated endosperm segments; at 4 mM SHAM,GA₃-induced sugar release was inhibited by 66–79 per cent.Extracts prepared from segments incubated in 0.05 mM GA₃ with2, 5 and 10 mM SHAM showed 30, 53 and 71 per cent lower -amylaseactivity, respectively, compared to the GA₃-alone treatment.Addition of SHAM (0.5–5 mM) during the enzyme assay hadno effect on the activity of -amylase. Thus, the inhibitionof starch mobilization in endosperm by SHAM is due to inhibitionof the production and not the activity of -amylase. The inhibitionof Avena fatua seedling growth by SHAM reported earlier may,in part, be due to its effect on endosperm mobilization. Since (1) Avena fatua seeds have been shown to have little orno SHAM-sensitive respiration, and (2) concentrations of SHAMnecessary for inhibiting endosperm mobilization were significantlyhigher than those generally necessary for inhibiting alternativerespiration, the inhibition of endosperm mobilization by thiscompound does not appear to involve its effect on alternativerespiration. Avena fatua L., wild oat, -amylase, endosperm, gibberellic acid, salicylhydroxamic acid, seed     

Kinetics of Phenylalanine Ammonia-Lyase and the Effect of L-{alpha}-aminooxy-{beta}-phenylpropionic Acid on Enzyme Activity and Radicle Growth in Germinating Lettuce Seeds

The effects of different concentrations of L--aminooxy-ß-phenyIpropionicacid (AOPP), an analog of L-phenylalanine, on the activity ofphenylalanine ammonia-lyase (PAL, EC 4.3.1.5 [EC] ) and the growthof radicles in 24 h old germinating lettuce (Lactuca salivaL.) seeds were investigated. AOPP causes a significant inhibitionof PAL activity in the seeds (85% inhibition at 10⁴ M). It alsocauses a stimulation of radicle growth at that concentration.The results show that the inhibition of PAL by AOPP may be dueto an irreversible binding of the inhibitor to the enzyme leadingto its inactivation. AOPP also inhibits ethylene biosynthesisin germinating lettuce seeds which could probably explain thestimulation of radicle growth in these seeds. The enzyme shows typical Michaelis-Menten kinetics. The K_m forL-phenylalanine is 4.2 x 10⁵ M. The enzyme does not show anytyrosine ammonia-lyase activity. Various substrate analogs suchas D-phenylalanine, p-fluorophenylalanine, ß-phenyllacticacid, tryptophan and the product of the enzyme reaction, trans-cinnamicacid, inhibit the enzyme competitively. A number of intermediatesand endproducts of the phenylpropanpid pathway, except chlorogenicacid, do not show any inhibition. ¹Scientific contribution number 1423 from the New HampshireAgricultural Experiment Station. (Received May 9, 1986; Accepted September 8, 1986)     

Relation of Glycosidases to Amaryllis vittata Pollen Tube Growth

The role of glycosidases activity in the regulation of pollentube extension in Amaryllis vittata during in vitro germinationwas investigated. No significant change in the enzyme activities(-glucosidase, -galactosidase, rß-glucosidase andrß-galactosidase) at different stages of tube growthwas found. No increase in patent rß-glucosidase activityassayed directly in a suspension of intact germinating pollenwas observed. The results are discussed in the light of thedifferential role of wall-bound glycosidases in cells showingoverall surface growth and tip growth i.e., pollen tubes. (Received February 4, 1981; Accepted June 5, 1981)     

Seasonal Distribution of Carbohydrates in Nodules and Stem Exudate from Field-grown Soya Bean Plants

The concentration of carbohydrates in tap root nodules fromfield-grown soya bean [Glycine max (L.) Merr.] plants was verysimilar to the concentration of compounds previously reportedin greenhouse-grown nodules during vegetative growth of seedlings.The concentration of D-pinitol, sucrose and starch in nodulesdeclined during rapid fruit growth, but the concentration ofother compounds did not decline. The availability of carbohydratein nodules during fruit growth did not seem likely to be thecause of the decline in nitrogen-fixing activity of noduleswhich has been reported by others. All compounds except glucoseand , -trehalose declined to concentrations near zero duringa 10-day period of nodule decay. However, the decline in carbohydratedid not appear to cause nodule senescence because it did notprecede the period of decay and because decayed nodules containedsubstantial quantities of glucose and , -trehalose. Seasonalmean concentrations (72 samples from 24 dates) of compounds,in mg carbohydrate per g f. wt of nodule, were: sucrose, 2.84;D-pinitol, 1.14; D-chiro-inositol, 1.27; glucose, 1.40; , -trehalose,1.34; myo-inositol, 0.65; maltose, 0.31; and fructose, 0.21. Quantities of sugars and cyclitols in stem exudate collectedin the field on 13 dates were small (< 10 percent) relativeto the quantity of nitrogenous compounds transported from rootsto shoots. The seasonal pattern of pinitol transport in thexylem was very similar to the seasonal pinitol concentrationin nodules. A large increase in sugar concentration in stemexudate subsequent to 80 days after planting supports the viewthat lack of carbohydrate was not a cause of nodule senescence. Glycine max (L.) Merr, soya bean, cyclitols, , -trehalose, starch, D-pinitol, carbohydrates, root nodules, senescence     

Inhibition of 1-Aminocyclopropane-l-carboxylic Acid Synthase Activity by Polyamines, Their Related Compounds and Metabolites of S-adenosylmethionine

Basic amino acids, monoamines, diamines and polyamines inhibitedthe activity of 1-aminocyclopropane-1-carboxylic acid (ACC)synthase extracted from wounded mesocarp tissue of winter squashfruit (Cucurbita maxima Duch.). Among the amines tested, polyamineswere highly effective, while the synthetic triamine, 1,8-diamino-4-aminomethyloctane,was an even stronger inhibitor than the polyamine spermine.Polyamines inhibited ACC synthase activity in a non-competitivemanner, while metabolic inhibitors such as aminoethoxyvinylglycineand aminooxyacetic acid inhibited ACC synthase activity competitively,showing much lower Ki values than those of polyamines. ACC synthaseactivity was also inhibited by intermediates of the methionine-recyclingpathway, 5'-methylthioadenosine and -keto--methylthiobutyricacid and by S-adenosylhomocysteine, a product of transmethylationof S-adenosylmethionine. It appears that polyamines not only inhibit ACC synthase activitybut also suppress the induction of the enzyme. However, unlikeprevious reports, polyamines did not inhibit in vivo ethyleneforming enzyme activity in the wounded mesocarp tissue. (Received October 24, 1985; Accepted January 10, 1986)     

Flexibility in the donor substrate specificity of {beta} 1,4-galactosyltransferase: application in the synthesis of complex carbohydrates

Biosynthetically, bovine N-acetylglucosainine ß 1,4-galacto-syltransferase(GalT) catalyses the transfer of galactosyl residues from UDP-Galto the 4-position of GlcNAc units, resulting in the productionof N-acetyllactosamine sequences. UDP-Glc and UDP-GalNAc werealso found to act as donors for this enzyme, allowing the preparationof ßGlc(14)-ßGlcNAc and ßGalNAc(14)ßGlcNActerminating structures on the milligram scale. GalT could thusbe used to add ßGalNAc to ßGlcNAc(12)Manterminating structures, converting them to the ßGalNAc(14)ßGlcNAc(12)Mansequences found on glycoprotein hormones. GalT did not transferGlcNAc residues from UDP-GlcNAc, but it could utilize UDP-GlcNH₂as a donor. Synthesis of ßGlcNAc(14)ßGlcNAcsequences could therefore be accomplished by transfer of GlcNH₂from its UDP derivative, followed by N-acetylation of the productamino-disaccharide using acetic anhydride in methanol. The productsof the enzymatic reactions were characterized by ¹H-NMR-spectroscopyand fast-atom bombardment mass spectrometry. This work expandsthe scope of the combined chemical-enzymatic synthesis of complexcarbohydrates, using glycosyltrans-ferases, to the productionof oligosaccharides different from those for which these enzymeswere designed. These unnatural reactions should find applicationin glycoprotein and glycolipid remodelling. galactosyltransferase chemica1-enzymatic synthesis of oligosaccharides oligosaccharide analogues sugar-nucleotide analogues carbohydrate remodelling     

The Genetics of Dopa Decarboxylase and a-Methyl Dopa Sensitivity in Drosophila melanogaster

Dopa decarboxylase (DDC) in the Diptera is an enzyme involvedin sclerotinization of the cuticle in the epidermis and theproduction of neurogenic amines in the central nervous system.Its appearance in the epidermis at pupariation is induced bythe molting hormone ecdysone. The dietary administration ofthe analog inhibitor -methyl dopa (a MD) was used to isolateresistant and hypersensitive mutants. Two of three dominantresistant strains isolated increase DDC activity 35-70%. Forboth the increase is due to mutations between rdo (53) and pr(54.5) on the left arm of the 2nd chromosome (2L). The veryhighly resistant strain which does not affect DDC in any wayis located at 54.0 on 2L. Twelve dominant, l(2)amd^H —MD hypersensitive alleles located immediately to the right ofhk (53.9) on 2L have been recovered. All are recessive lethalsand exhibit some intracistronic complementation, and none ofthem, not even heteroallelic heterozygotes, affect DDC in anyway. The.recovery and analysis of 16 overlapping deficienciespermitted the localization of a DDC dosage effect to bands 37B10-C7on 2L; a region which includes the l(2)amd locus. Subsequentlyeight DDC deficient lethal alleles were recovered in this elevenband region which as heterozygotes reduce activities to 28–53% of controls. Some heteroallelic heterozygotes exhibit intracistroniccomplementation; most with viabilities 5% and with a mutantphenotype probably derived from inadequately sclerotinized cuticle.These Ddc alleles are within 0.004 Map Units to the right ofl(2)amd. None as Ddc/CyO heterozygotes are sensitive to -MD,and complementation occurs between the Ddc alleles and the l(2)amdalleles both on the basis of viability and DDC activity. Althoughthe protein product mutated by the l(2)amd alleles has not yetbeen identified, it seems likely that the two groups of mutantsare functionally related. Finally, the Ddc structural mutantsreduce DDC activity in the central nervous system as well asthe epidermis.     

Induction of Mn SOD in human monocytes without inflammatory cytokine production by a mutant endotoxin

Endotoxin selectively induces monocyte Mn superoxide dismutase(SOD) without affecting levels of Cu,Zn SOD, catalase, or glutathione peroxidase. However, little is known about the structure-activity relationship and the mechanism by which endotoxin induces Mn SOD. Inthis study we demonstrated that a mutant Escherichiacoli endotoxin lacking myristoyl fatty acid at the3' R-3-hydroxymyristate position of the lipid A moiety retained its full capacity to coagulate Limulus amoebocyte lysate comparedwith the wild-type E. coli endotoxinand markedly stimulated the activation of human monocyte nuclearfactor-B and the induction of Mn SOD mRNA and enzyme activity.However, in contrast to the wild-type endotoxin, it failed to inducesignificant production of tumor necrosis factor- and macrophageinflammatory protein-1 by monocytes and did not induce thephosphorylation and nuclear translocation of mitogen-activated proteinkinase. These results suggest that1) lipid A myristoyl fatty acid,although it is important for the induction of inflammatory cytokineproduction by human monocytes, is not necessary for the induction of MnSOD, 2) endotoxin-mediated inductionof Mn SOD and inflammatory cytokines are regulated, at least in part,through different signal transduction pathways, and3) failure of the mutant endotoxinto induce tumor necrosis factor- production is, at least in part,due to its inability to activate mitogen-activated protein kinase.

     

The Inducible Formation and Stability of Nitrate Reductase in Higher Plants: II. EFFECTS OF ENVIRONMENTAL FACTORS, ANTIMETABOLITES, AND AMINO-ACIDS ON INDUCTION

The induction of nitrate reductase by molybdenum or nitratein excised tissues of cauliflower leaf was dependent on temperature;for the range 2^? to 12^? C, Q₁₀ was about 2; for the range 12^?to 22^? C, Q₁₀ was greater than 3. Enzyme formation was initiallymost rapid at 32^? C but did not continue for as long as it didat 22^? or 24^? C. Decreased oxygen supply lessened the rate ofenzyme formation. The effects on enzyme formation of a widerange of natural and synthetic antimetabolites were tested withrespect to induction by either nitrate or molybdenum, when introducedat the same time by infiltration. Actidione (cycloheximide),patulin, cycloserine, polymyxin B, L-2-thiolhistidine D-methionine,L-dihydroxyphenylalanine, D,L--methylglutamic acid, sarcosineand 1 ,2-dichloro-4-(p-nitrobenzenesulphonylamido)-5-nitrobenzene(DCDNS) were the most inhibitory compounds tested. Serine stimulatedproduction of enzyme activity; kinetin, benzimidazole, and p-fluorophenylalanine,3--methyltryptophane and the 4- isomer, chloramphenicol, gramicidin,and several thio- and^aza- derivatives of purines or pyrimidineswere practically without effect. Differential effects of inhibitorson enzyme formation in response to nitrate or molybdenum wererarely observed, and no deductions regarding the possible sequencein which the substrate and prosthetic metal induce activitycould be inferred from the results.     

Pigment synthesis in Cucurbita moschata cotyledons as influenced by CPTA and several inhibitors

2-(4-Chlorophenylthio) triethylamine hydrochloride (CPTA) inducedthe accumulation of a number of carotenes in pumpkin (Cucurbitamoschata) cotyledons, a tissue which does not normally accumulatethese pigments. Lycopene accumulated concomitantly with a decreasein -carotene and ß-carotene. CPTA appeared to inhibitcyclases involved in the synthesis of -carotene and ß-caroteneand to stimulate enzymes involved in lycopene synthesis. Cycloheximidereduced this CPTA induced enzyme synthesis while diphenylaminereduced CPTA induced carotene accumulation. Actinomycin D alonereduced accumulation of carotenes, but it did not affect CPTAinduced carotene accumulation. Rather lutein, violoxanthin andneoxanthin decreased and -carotene and ß-caroteneaccumulated. ¹Present address: Morioka Branch, Vegetable and Ornamental CropsResearch Station, Ministry of Agriculture and Forestry, Shimokuriyagawa,Morioka, Japan. (Received August 12, 1974; )     

The Physio1ogical Activity of 2 : 6-Substituted Phenoxyacetic Acids

Anumber of 2 : 6-substituted phenoxyacetic acids in which theside chain had been substituted by ailcyl groups to form -propionic,-n-butyric and -n-valeric acids were investigated to assesstheir ability to act as growth-regulators. Besides employingstandard tedmiques of bioassay, further experiments were undertaken to determine the effects of these compounds on the vegetativegrowth and development of intact plants of Helianthus annuus. It has been established that all the compounds tested inducedcurvature in the Went pea curvature test and that without exceptionthe activity of the parent phenoxyacetic acid (2:6-dichloro-,2:4:6-trichloro-,2:6-dimethyl-, and 2:4-dichloro-6-methyl-)was increased by side chain substitution. In the Avena straight growth assay, the a 2:6-dichloro- and2:6-dimethyl- phenoxypropionic and butyric acids brought aboutstatistically significant increases in length of the coleoptilesections, when measurements were made at the end of 24 hours.Their activity was of the same order as that exhibited by a2:4-dichlorophenoxyacetic acid. Investigations were carried out on the uptake of water by sectionsof pea internode and the extension growth of Avena coleoptileaectiona when both the concentration and the length of treatmentwere varied. For some compounds it was found that over a certainrange of concentration water uptake and extension growth wereaccelerated in the initial 6–8 hours. Subsequent to this,inhibition occurred so that no significant increases above controlvalues were apparent at the end of 24 hours, and in some casesan actual loss of water or shrinkage in length took place. Itwas thus possible to demonstrate that 2:6-dimethylphenoxyaceticacid acts as a growth regulator in pea extension growth andthat 2:6-dichiorophenoxyacetic acid is active in the Avena test. The changes in the leaf area of individual pairs of leaves,together with the lengths of the internodes and shoot weightwere followed after application of measured amounts of eachcompound to the first pair of leaves of H. annuus. A numberof the 2:6-compounds were capable of modifying growth in wayssimilar to 2:4-dichlorophenoxyacetlc acid. However, much higherconcentration had to be applied in order to produce effectscomparable to those caused by the 2:4-dichloro- compound. Measurementsof the percentage of applied compound which penetrated intothe leaf showed that there were no marked differences in thisrespect between the different phenoxy acids. On the other hand,experiments in which the treated leaves were left on the plantfor varying periods of time led to the conclusion that the a: 6-substituted compounds are less readily translocated than2:4-dichlorophenoxyacetic acid.     

RNA Polymerase Activity During Breakage of Seed Dormancy by Low Temperature Treatment of Fruits of Acer platanoides (Norway Maple)

Slater, R. J. and Bryant, J. A. 1987. RNA polymerase activityduring breakage of seed dormancy by low temperature treatmentof fruits of Acer platanoides (Norway maple).—J. exp.Bot. 38:1026–1032. Endogenous RNA polymerase activity has been characterized innuclei isolated from embryo axes of Acer platanoides. Optimalactivity was recorded at 4·0 mol m^–3 MgCl₂ and50 mol m^–3 (NH₄)₂SO₄ and total activity could be inhibitedby up to 30% by -amanitin. Stratification of fruits leads toa stimulation of RNA polymerase activity. A minimum of 3 d coldtreatment is required with at least 3-fold stimulation recordedafter 10 d at 4°C. The increased enzyme activity is resistantto -amanitin suggesting an effect on RNA polymerase I. Key words: Acer platanoides, RNA polymerase, seed dormancy     

Purification and properties of DNA topoisomerase II from Daucus carota cells

Topoisomerase II was partially purified from Daucus carota cellsby a procedure including ammonium sulphate fractionation, ion-exchange,and affinity chromatography steps. The type II enzyme, identifiedfor its ability to unknot knotted P4 DNA and decatenate Trypanosomacruzi kDNA, requires ATP and Mg²⁺ for activity. The unknottingactivity was sensitive to an inhibitor of the mammalian typeII enzyme, the drug VP16 (IC₅₀ 32 mmol m^–3), whereas inhibitorsof DNA gyrase showed a limited effect on activity. The SDS-PAGEanalysis of the dsDNA cellulose fraction revealed the presenceof four polypeptides of apparent molecular masses of 72, 71,34, and 33 kDa among which only a polypeptide of about 70 kDacrossreacted with antibodies against yeast topoisomerase II.Immunoprecipitation experiments with monoclonal antibodies tothe and ß isoforms of the human enzyme confirmedthe recognition of a polypeptide of 70 kDa. The sedimentationcoefficient (S) of the topoisomerase II in the phosphocellulosefraction, calculated by analytical glycerol gradient, was 6.1corresponding to a molecular mass of about 123 kDa. Resultssuggest the presence in carrot of a protein of molecular massof 70 kDa having the typical properties of an eukaryotic topoisomeraseII and carrying epitopes recognized by MoAbs to both human and ß enzymes. The 70 kDa polypeptide might then representthe monomer of a homodimer enzyme of 123 kDa. Key words: Daucus carota, topoisomerase II, immunoprecipitation     

Growth and Aspartate Kinase Activity in Wheat Cell Suspension Culture: Effects of Lysine Analogs and Aspartate-Derived Amino Acids

The effects of lysine analogs and aspartate-derived amino acidson the growth of wheat cell suspension culture were studied.S-(2-Aminoethyl)-L-cysteine (AEC), -hydroxylysine (DHL) andtrans-lysene caused complete growth inhibition at 1.0 mM. Thegrowth inhibition of lysine analogs were, in the order of decreasingeffectiveness; AECDHL, trans-lysene>oxalysine, homolysineand lysyne. cis-Lysene and methyllysine were not inhibitoryeven at concentrations of 10 mM. Lysine effectively relievedgrowth inhibition induced by the lysine analogs. Lysine plusthreonine showed concerted inhibition, which was relieved bythe addition of methionine. Activity of aspartate kinase extracted from wheat cell suspensionculture was strongly inhibited by L-lysine; 0.75 to 1 mM oflysine was required for half-maximal inhibition. Threonine andmethionine, individually or in combination with lysine, showedno inhibitory effect on the enzyme activity. S-Adenosylmethionine,when added with lysine in equimolar concentrations, enhancedthe feedback inhibition by lysine, lowering the concentrationof lysine for half-maximal inhibition to 0.13 mM. The aspartatekinase isolated from the cells cultured in the presence of 5mM lysine did not differ in regulatory properties from the enzymefrom the cells cultured without lysine. AEC at 5 mM inhibitedthe enzyme activity by 50%. Other lysine analogs were not inhibitoryto the enzyme activity even at 10 mM. Growth inhibition of wheat suspension culture by aspartate-derivedamino acids and lysine analogs were discussed in relation totheir inhibitory effects on aspartate kinase activity. (Received October 25, 1985; Accepted February 26, 1986)     

The Oxidation of d-isoCitrate by Pea-seedling Mitochondria

A diphosphopyridine nucleotide specific isocitric dehydrogenasehas been isolated from pea-seedling mitochondria and purified10-fold. In the presence of manganese the enzyme catalyses theoxidative decarboxylation of d-isocitrate to -oxoglutarate andCO₂, but under similar conditions does not catalyse the reversereaction. Evidence is presented indicating that -SH groups ofthe enzyme are essential for activity. The properties of theenzyme are described.     

Effects of Gibberellins and Prohexadione on the Activities of Oryzain and {alpha}-Amylase in Rice Seeds

Oryzains, cysteine proteinases of rice seeds, are induced byGA₃ in germinating rice seeds [Abe et al. (1987) Agric. Biol.Chem. 51: 1509]. The effects of GA₁, GA₃, GA₄, GA₉, and GA₂₀on the production of oryzain and -amylase were investigatedin embryoless half- and whole-seeds of rice (cv. Nipponbare).When gibberellins (GAs) were incubated with embryoless half-seeds,GA₁, GA₃ and GA₄ induced oryzain and -amylase, but GA₉, andGA₂₀ did not. GA₉ and GAM induced oryzain and -amylase productionin whole seeds, but this production was inhibited by the simultaneousapplication of prohexadione, an inhibitor of 2ß- and3ß-hydroxylation of GAs. Prohexadione did not inhibitthe activities of oryzain and -amylase induced by GA₁. Theseresults suggest that GAs possessing the 3ß-hydroxylgroup induce activities of oryzain and -amylase in rice seedsand that GA₉ and GA₂₀ have activity only after they are convertedmetabolically to active GAs, probably GA₄ and GA₁, respectively.GA₁, was more active than GA₄ in both half seeds and wholeseeds incubation. Oryzain and -amylase activities induced byGA₄ were significantly inhibited in the presence of 10^–4M prohexadione. This suggests that the conversion of GA₁, toGA₄ (13-hydroxylation) might be inhibited at a high dose ofprohexadione in whole seeds. ⁴Present address: Institute of Food Development, Kyung Hee University,Suwon 449-701, Korea     

Growth Regulation of Galium mollugo L. Cell Suspensions by a-Naphthalene Acetic Acid

Fidgeon, C. and Wilson, G. 1987. Growth regulation of Galiummollugo L. cell suspensions by -naphthalene acetic acid.—J.exp. Bot. 38: 1491–1500. Galium mollugo cell suspension cultures were found to requirethe plant growth regulator -naphthalene acetic acid (-NAA) forcontinued growth and cell division. This requirement could notbe substituted in either batch or semi-continuous culture byindole-3-acetic acid (IAA) or 2,4-dichlorophenoxy acetic acid(2,4-D) at any concentration tested. However, ß-naphthaleneacetic acid (ß-NAA) and indole-3-butyric acid (IBA)were found to support growth when supplied at a concentrationtwo orders of magnitude greater than the normal media level(0–5 mg dm³). The growth of Galium cells was found to be influenced not onlyby the -NAA initially supplied in the medium but also by theexposure to -NAA in previous growth cycles. Preculture of cellsfor 3 d in an -NAA containing medium, followed by cell washingand re-inoculation into -NAA free medium, supported a quantitativegrowth response similar to that obtained after 14 d in the control-NAA containing medium. Even short-term exposures between 0·5and 6·0 h stimulated a detectable growth response 14d later. These observations raise questions relating to theuptake and perception of exogenously supplied growth regulatorsby cultured cells. The delayed kinetics of this form of response is of significancein culture regimes in which cells are transferred from one mediumto another, differing in their growth regulator composition,in order to induce morphogenesis