Effect of Thiolactomycin on Fatty Acid Synthesis in Higher Plants

Thiolactomycin (TLM), an antibiotic from Nocardia sp. No. 2-200,inhibited fatty acid synthesis in Avena leaves, with the concentrationcausing 50% inhibition being 0.38µg/ml. This antibioticis more inhibitory to the elongation of palmitic to oleic acidthan to the de novo synthesis of palmitic acid in both spinachchloroplasts and Avena leaves, in contrast to the effect ofcerulenin which inhibits de novo synthesis but not fatty acidelongation. On the other hand, TLM is less inhibitory to furtherelongation of stearic acid to very long chain fatty acids inpea seeds. The inhibition rate decreased in the order of synthesisof arachidic, behenic and lignoceric acid. (Received December 26, 1986; Accepted April 24, 1987)     

Effect of Thiolactomycin on Lipid Synthesis in Higher Plants

The effect of thiolactomycin (TLM), an inhibitor of type IIfatty acid synthase, on lipid synthesis in greening tissueswas examined. Pulse-chase experiments with Na[1-¹⁴C]acetatefor greening Avena leaves showed that continuous administrationof TLM (100µg/ml) decisively reduced phosphatidylcholine(PC) synthesis from acetate and blocked the subsequent conversionof PC to monogalactocyldiacylglycerol (MGDG), whereas temporaladministration of TLM (100 µ/ml) reduced PC synthesisfrom acetate by only 50% and did not block the conversion ofPC to MGDG. In the reduced PC synthesis, the ratio of oleicto palmitic acid decreased at earlier stages of greening, reflectingmore suppression of oleic acid synthesis. In later greeningstages the modulated fatty acid composition recovered to thenormal composition. In further steps, the fatty acid compositionwas not affected by TLM throughout the greening stages. Greeningof either etiolated Avena leaves or etiolated Brassica cotyledonsin the presence of TLM led to a marked decrease in the contentsof MGDG, digalactosyldiacylglycerol (DGDG) and phosphatidylglycerol(PG), but only a small change in the fatty acid compositionof their lipids. The only inhibition characteristic of TLM wasthe desaturation of palmitic to 3-trans-hexadecenoic acid inAvena leaf PG. These results suggest the presence of a mechanismby which the modulated fatty acid composition of lipids is normalizedin the flow of the synthesis. Electron microscopic observationsshowed that Avena chloroplasts developed into round forms ratherthan normal ellipse forms and the thylakoid membranes of Brassicachloroplasts were abnormally swollen everywhere in the presenceof TLM. Photosynthetic oxygen evolution in both tissues wasnot inhibited. (Received December 26, 1986; Accepted April 24, 1987)     

Effects Produced on Tomato Plants, Lycopersicum esculentum, by Seed or Root Treatment with Gibberellic Acid and Indol-3yl-Acetic Acid

Growth in lengths of tomato stems and leaves was acceleratedby 5.0 µg gibberellic acid (GA₂) applied to the seed,or by 5.0, 0.5, and 0.05 µg given to the roots. Treatmentwith 5.0 µg also decreased bud number and lengthened thetime between bud appearance and fruit formation on the firsttruss by 1–8 days. Smaller amounts applied to roots shortenedthis time by 1–4 days. Indol-3yl-acetic acid at 0.5 µghad no effect, nor was simultaneous application of GA₃ and IAAto the roots more effective than GA₃, alone. Single applicationsof very small amounts of GA₃ to seeds or seedling roots thusproved capable of changing growth-rates of stems, leaves, andtrusses.The effects of treating tomatoes with GA₂ and with culturesof Azotobacter chroococcum, which contain small amounts of GA₃,and IAA, are compared.     

Age-related Changes in Stomatal Response to Cytokinins and Abscisic Acid

Kinetin and zeatin(100 mmol m^–3)reversald the ABA-mediated(100mmol ^m-2)closure of stomata of young maize leaves but did notaffect stomatal apertures of these leaves when applied alone.As leaves aged, kinetin or zeatin alone promoted increased stomatalapertures, while abscisic acid (ABA) applied alone had a reducedeffect on stomata. Even with older leaves, cytokinins reversadthe effect of ABA on stomata. Maize, stomata, abscisic acid, kineusc, zeatin, Zea mays     

Copper Nutrition of Sugarbeet

Sugarbeet (Beta vulgaris L.) plants were grown in refined sandat graded levels of copper ranging from acute deficiency (0.000325µg Cu cm^–3) to excess (65 µg Cu cm^–3).Visible effects of copper deficiency appeared up to 0-00065µg Cu cm^–3and depression in growth up to 00065µCucm^–3. Copper deficiency decreased the concentrations ofDNA and RNA and the activities of polyphenol oxidase, cytochrome-coxidase, catalase and aldolase; and it increased the activitiesof peroxidase, ribonuclease and acid phosphatase in leaves.The maximum sucrose concentration in roots was obtained at 0-65µCucm^–3 Twenty four h after infiltration of a solution of 65µCucm^–3into copper deficient leaves, the activities of cytochrome-coxidase and peroxidase had increased even in the presence ofcycloheximide but that of polyphenol oxidase increased onlyin the absence of this inhibitor. Key words: Beta vulgaris, Cu deficiency: Enzymes     

Comparison of Glycolipids and Plastids in Callus Cells and Leaves of Alnus and Betula

The fine structure of plastids and fatty acid composition ofglycolipids (e.g. monogalactosyl diacylglycerides, MGDG; digalactosyldiacylglycerides, DGDG) in callus cells of Alnus glutinosa,A. incana and Betula pendula cultured in light was comparedwith that in intact leaves. The tissues were qualitatively verysimilar but a rather high amount oflignoceric acid (24:0) wascharacteristic for the callus of A. incana. This fatty acidwas found only in trace amount in other tissues. Linolenic (18:3)and palmitic (16:0) acids are the most abundant (25–65%and 17–27% respectively) fatty acids in all tissues studied.The proportion of 18:1 and 18:2 was much higher in the calluscompared with corresponding intact leaves, which are especiallyrich (48–65%) in 18:3. In callus cultures a higher proportion(17–19%) of linoleic acid (18:2) is found in both Alnusspecies than in the two callus strains of Betula (9–12%). All leaf and callus samples contained esterified steryl glycosidesand two cerebrosidelike spots in thin-layer chromatography,but they were more prominent in callus cultures than in leaves.The callus cells have plastids with rather well developed thylakoidswhich explains the similarity of the main glycolipid components(MGDG and DGDG) to that of leaves. (Received April 23, 1984; Accepted August 17, 1984)     

Lipid and Sterol Composition of Plasma Membranes Isolated from Stele and Cortex of Maize Roots

The phospholipid and sterol contents of plasma membranes isolatedfrom stele and cortex of maize roots were compared. The majorsterol present in both tissues was stigmasterol which was foundin significantly higher quantities in the cortex (27·4µg mg^–1 membrane protein) compared to the stele(17·4 µg mg^–1). Other sterols detected includedsitosterol, campesterol and small quantities of cholesterol.The major phospholipids found were phosphatidylethanolamine(PE) and phosphatidylcholine (PC), with PC more abundant inthe stele. The fatty acid composition indicated that the majorfatty acid in both stele and cortex was 16:0 (palmitic), withothers found in lesser amounts. Key words: Zea mays, cortex, phospholipids, plasma membrane, stele, sterols     

Developmental and Biochemical Regulation of 'Constitutive' Nitrate Reductase Activity in Leaves of Nodulating Soybean

The developmental profile of ‘constitutive’ nitratereductase activity (cNRA) in leaves of soybean (Glycine max(L.) cv. Bragg) plants at different ages is described. The youngestleaves had most cNRA and the activity dropped off as a newerleaf developed above it. Each leaf had its distinct active periodof in vivo cNRA. This pattern was different in urea-grown andsymbiotically-grown plants (inoculated with Bradyrhizobium japonicumstrain USDA 110), where the latter had no detectable in vivocNRA in older leaves. Urea-grown plants maintained considerablein vivo NRA in such older leaves. When symbiotically-grown plantshad their nodules removed, in vivo cNRA reappeared in olderleaves within 1 d of removal, nearly reaching levels of youngleaves at 3 d after nodule excision. Allantoic acid (ALL), oneof the known transport ureides of soybeans, was implicated asa possible signal molecule from nodules to leaves. Allantoicacid (100 µM) inhibited in vitro c₁ NRA significantly,with 400 µM ALL resulting in complete inhibition. In contrast,allantoin (ALN) had no inhibitive effect on NRA. Inhibitionof c₁NRA by ALL was by a competitive process, judging from Lineweaver-Burkeplots against nitrate. Kinetics showed a constant Vmax of around105 nmol NO₂ mg^–1 protein h^–1 and a K_m for nitrateof 15 mM, which increased to 60 mM in the presence of 200 µMallantoic acid. Non-specific (ionic and pH-related) influenceswere eliminated. Allantoic acid also had a slight stimulatingeffect of in vitro NRA (up about 25% at 400 µM). Thesefindings suggest that c1NRA may be involved in ureide metabolism,rather than in vivo nitrate metabolism. Key words: Root-shoot interaction, nitrogen metabolism, nodulation, symbiosis     

The Metabolism of Abscisic Acid

The light-catalysed isomerization of (+)-abscisic acid (ABA)to its trans isomer during isolation from leaves was monitoredby the addition of (±)-[2-¹⁴C]ABA to the extraction medium.(+)Trans-abscisic acid (t-ABA) was found to occur naturallyin rose (Rosa arvensis) leaves at 20µg/kg fresh weight;(+)-ABA was present at 594µg/kg. (±)-[2-¹⁴D]Trans-abscisicacid was not isomerized enzymically to ABA in tomato shoots. (±)-Abscisic acid was converted by tomato shoots to awater-soluble neutral product, ‘Metabolite B’, whichwas identified as abscisyl-ß-D-glucopyranoside. When(±)-[2-¹⁴C]trans-abscisic acid in an equimolar mixturewith (±)-[2-¹⁴C}ABA was fed to tomato shoots it was convertedto its glucose ester 10 times faster than was ABA. Trans-abscisyl-ß-D-glucopyrano8ide only was formedfrom (±)-[2-¹⁴C]t-ABA in experiments lasting up to 30h. Glucosyl abscisate was formed slowly from ABA and the freeacid fraction contained an excess of the unnatural (–).ABAas did the ABA released from abscisyl-ß-D-glucopyranosideby alkaline hydrolysis. The (+).ABA appeared to be the solesource of the acidic ‘Metabolite C" previously noted. The concentrations of endogenous (+)-, (+)-[2-¹⁴C]-, and (–)-[2-¹⁴C]ABAremaining as free acid, and also in the hydrolysate of abscisyl-ß-D-glucopyranoside,were measured by the ORD, UV absorption, and scintillation spectrometryof highly purified extracts of ABA from tomato shoots whichhad been supplied with racemic [2-^l4C]ABA.     

Phloem Exudate of Perilla crispa and its Effects on Flowering of P. crispa Shoot Explants

The aim was to develop an assay for the flowering stimulus ofa photoperiodically-sensitive plant. Phloem exudate solutionswere obtained from photoperiodically induced and non-inducedleaves of Perilla crispa (Thunb.) Tanaka, following treatmentof excised leaves with solutions of EDTA or phytic acid. Theamounts of exudate obtained were estimated polarimetrically,and the conditions for obtaining maximum exudate yields weredetermined. Shoot explants from non-induced P. crispa plantswere grown on a nutrient medium. Under short days the explantsreached anthesis after c. 35 d. In continuous light a smallproportion of the explants showed signs of flowering after 100d. The effects of test substances and phloem exudate on theflowering of explants grown in continuous light was investigated.(?)-ABA (4.0 µM), sucrose (14.6 mM) and phloem exudatefrom both induced and non-induced leaves caused some promotionof flowering. In three experiments, phloem exudate from inducedleaves enhanced flowering to a greater extent than exudate fromnon-induced leaves; in other experiments the effects of thetwo types of exudate were similar. There was no evidence thatABA or sucrose in the phloem exudate caused flowering. Concentrationsof phloem exudate above 2.0 g I^–1 were phytotoxic to theexplants. Key words: Chelating agents, Flowering, Perilla crispa, Phloem exudate, Phytic acid, Shoot culture     

Effect of Plant Growth Regulators on Nitrate Utilization by Roots of Nitrogen-Depleted Dwarf Bean

We examined the effect of pretreatments (18 h at 5 µmoldm^–3) with abscisic acid, the ethylene-releasing substance‘Ethephon’, gibberellic acid, indoleacetic acid,kinetin and zeatin on nitrate uptake and in vivo nitrate reductaseactivity (NRA) in roots of nitrogen-depleted Phaseolus vulgarisL. Nitrate uptake showed an apparent induction pattern witha steady state after about 6 h, in all treatments. The nitrateuptake rate after 6 h was unaffected or at most 30% lower aftertreatments with the plant growth regulators. Gibberellic acid, kinetin and zeatin induced substantial NRAin roots in the absence of nitrate, whereas Ethephon enhancedNRA only during nitrate nutrition. Kinetin-induced NRA (Ki-NRA)was maximal after a pretreatment at 1 µmol dm^–3,and showed a lag phase of 6–8 h. Ki-NRA was additive tonitrate-induced NRA (NO^–₃-NRA) for at least 24 h, independentof the induction sequence. After full induction, Ki-NRA approximated20% of NO-₃-NRA. Abscisic acid counteracted the developmentof Ki-NRA, but not of NO^–₃-NRA. Cycloheximide and tungstatewere equally effective to suppress the development of nitratereductase activity after supply of kinetin or NO^–₃. Our data are consistent with the operation of two independentenzyme fractions (Ki-NRA and NO^–₃-NRA) with apparentlyidentical properties but with separate control mechanisms. Theabsence of major effects of plant growth regulators on the time-courseand rate of nitrate uptake suggests that exogenous regulators,and possibly endogenous phytohormones are of minor importancefor initial nitrate uptake. The differential effect of someregulators on nitrate uptake and root NRA furthermore indicatesthat the processes of uptake and reduction of NO^–₃ arenot obligatory or exclusively coupled to each other.     

Potent block of inactivation-deficient Na+ channels by n-3 polyunsaturated fatty acids

A voltage-gated, small, persistent Na⁺ current (I_Na) has been shown in mammalian cardiomyocytes. Hypoxia potentiates the persistent I_Na that may cause arrhythmias. In the present study, we investigated the effects of n-3 polyunsaturated fatty acids (PUFAs) on I_Na in HEK-293t cells transfected with an inactivation-deficient mutant (L409C/A410W) of the -subunit (hH1) of human cardiac Na⁺ channels (hNav1.5) plus ₁-subunits. Extracellular application of 5 µM eicosapentaenoic acid (EPA; C20:5n-3) significantly inhibited I_Na. The late portion of I_Na (I_{Na late}, measured near the end of each pulse) was almost completely suppressed. I_Na returned to the pretreated level after washout of EPA. The inhibitory effect of EPA on I_Na was concentration dependent, with IC₅₀ values of 4.0 ± 0.4 µM for I_Na peak (I_{Na peak}) and 0.9 ± 0.1 µM for I_{Na late}. EPA shifted the steady-state inactivation of I_{Na peak} by –19 mV in the hyperpolarizing direction. EPA accelerated the process of resting inactivation of the mutant channel and delayed the recovery of the mutated Na⁺ channel from resting inactivation. Other polyunsaturated fatty acids, docosahexaenoic acid, linolenic acid, arachidonic acid, and linoleic acid, all at 5 µM concentration, also significantly inhibited I_Na. In contrast, the monounsaturated fatty acid oleic acid or the saturated fatty acids stearic acid and palmitic acid at 5 µM concentration had no effect on I_Na. Our data demonstrate that the double mutations at the 409 and 410 sites in the D1–S6 region of hH1 induce inactivation-deficient I_Na and that n-3 PUFAs inhibit mutant I_Na. human cardiac sodium channel     

SHORT COMMUNICATION Factors Affecting Protoplast Culture ofCucumis melo'Green Delica'

Hypocotyls, cotyledons and etiolated half-expanded leaves ofCucumismelo‘Green Delica’ were used as explants for protoplastisolation and culture. Protoplasts isolated from cotyledonsand etiolated half-expanded leaves cultured in Durand, Potrykusand Donn (DPD) medium supplemented with 0.9 µMbenzylaminopurine(BAP), 3.6 µM2,4-dichlorophenoxyacetic acid (2,4-D) and1% sucrose, using the agarose bead culture method, were ableto form cell walls and subsequently go through cell division.Pretreatment of half-expanded leaf explants in the dark for14 d provided the best material for protoplast isolation andcell division. Approximately one third of protoplasts from etiolatedhalf-expanded leaves formed microcolonies. For hypocotyl protoplasts,none of the treatments used were suitable to induce cell division.There was no significant difference between sucrose, glucose,and sucrose plus glucose, in culture media on the plating efficiencyof leaf protoplasts ofC. melo‘Green Delica’; however,bigger colonies were formed in media supplemented with 1% sucrose.No shoot or whole plant regeneration was achieved. However,the methods reported here provide further information onC. meloprotoplastculture.Copyright 1998 Annals of Botany Company Cucumis melo,protoplast culture, 2,4-D, BAP, yeast extract, casein hydrolysate.     

Direct and Indirect Shoot Organogenic Pathways in Epicotyl Cuttings of Troyer Citrange Differ in Hormone Requirements and in their Response to Light

Bud differentiation by direct organogenesis at the apical endof Troyer citrange (Citrus sinensis[L]. OsbeckxPoncirus trifoliata[L].Raf.) epicotyl cuttings inserted vertically in a semi-solidculture medium did not require hormone additions. The numberof buds regenerated was slightly, but significantly, increasedwhen the incubation was performed in the light as compared tothe dark, and by the addition of benzyladenine (BA; 2.2 to 22µM) to the medium. Bud sprouting and subsequent shootformation required the addition of BA and was increased by lightto a higher extent than bud formation. The best response wasobtained with the highest BA concentration tested (22 µM).Regeneration through the indirect organogenic pathway at thetwo edges of the epicotyl cuttings when in contact with theculture medium did not occur in the absence of benzyladenine,which was an absolute requirement for callus development. Thebest regeneration response was obtained when the explants wereincubated in the light in the presence of 4.4 µM BA andan auxin. Indole-3-acetic acid (IAA; 5.8 µM) was moreeffective in increasing shoot formation than naphthaleneaceticacid (NAA; 0.54 µM). Higher NAA concentrations inhibitedshoot formation. Incubation in the dark or increasing the BAconcentration (22 µM) increased markedly callus growth,but inhibited both bud differentiation and sprouting, almostcompletely suppressing shoot formation. The conditions duringregeneration affected the rooting of the regenerated shoots.Rooting of 86% of the shoots was achieved in a medium with 2.7µM NAA and 2.6 µM indole-3-butyric acid. All therooted explants acclimated and survived transplanting. Underthe optimal conditions tested, the proliferation rate obtainedthrough the indirect regeneration pathway ranged from 60 to86 plants per seedling. Copyright 2000 Annals of Botany Company Troyer citrange, Citrus sinensisxPoncirus trifoliata, auxins, benzyladenine, direct organogenesis, hormone requirement, indirect organogenesis, light, morphogenesis, rooting.     

Photosynthetic characteristics of Dinophysis norvegica Claparede & Lachmann, a red-tide dinoflagellate

The relationships between photosynthesis and photosyntheticphoton flux densities (PPFD, P-l) were studied during a red-tideof Dinophysis norvegica (July-August 1990) in Bedford Basin.Dinophysis norvegica, together with other dinoflagellates suchas Gonyaulax digitate, Ceratium tripos, contributed {small tilde}50%of the phytoplankton biomass that attained a maximum of 16.7µg Chla 1^– and 11.93 10⁶ total cells I^–1.The atomic ratios of carbon to nitrogen for D.norvegica rangedfrom 8.7 to 10.0. The photosynthetic characteristics of fractionatedphytoplankton (>30 µm) dominated by D.norvegica weresimilar to natural bloom assemblages: o (the initial slope ofthe P-l curves) ranged between 0.013 and 0.047 µg C [µgChla]^–1 h–1 [µmol m^– s^–1]^–1the maximum photosynthetic rate, p^B_m, between 0.66 and 1.85µg C [µghla]^–1 h^–1; l_k (the photoadaptationindex) from 14 to 69 µ,mol m^–2 s^–1. Carbonuptake rates of the isolated cells of D.norvegica (at 780 µmolm^–2 s^–1) ranged from 16 to 25 pg C cell^–1h^– and were lower than those for C.tripos, G.digitaleand some other dinoflagellates. The variation in carbon uptakerates of isolated cells of D.norvegica corresponded with P^B_mof the red-tide phytoplankton assemblages in the P-l experiments.Our study showed that D.norvegica, a toxigenic dinoflagellate,was the main contributor to the primary production in the bloom.     

Isolation and Characterization of Photosynthetically Active Cells from Submersed and Floating Leaves of the Aquatic Macrophyte Potamogeton nodosus Poir

Photosynthetically active cells were isolated by enzymic digestionof floating and submersed leaves of the heterophyllous aquaticmacrophyte Potamogeton nodosus Poir. The yields of cells isolatedfrom floating leaves represented approximately 25% of the leafprotein or chlorophyll, while cell yields from submersed leaveswere only 3%. Photosynthetic activity was maximal in cells isolatedfrom submersed leaves 10 to 14 days after germination of thewinterbuds. Floating leaves were induced by treatment of theplants with abscisic acid. Cells from induced floating leavesshowed maximum photo synthetic rates between 9 and 21 days posttreatment.Phosphoglycerate, fructose 1,6-bisphosphate, sulfate and phosphatewere without significant effect on photosynthesis in eithercell type indicating that the cells were substantially intact.Half-saturation of photosynthesis for bicarbonate was at 0.6mM (pH 7.6) for cells from both leaf types, and the maximumrate was greater for cells from floating leaves. The light intensityfor half-saturation of photosynthesis was approximately 95 µEm^–2s^–1 for cells from both leaf types, and the maximumrate was greater for cells from floating leaves. (Received September 19, 1984; Accepted December 6, 1984)     

Evidence that the Toxic Effect of Rishitin may be due to Membrane Damage

Potato leaf epidermal strips incubated with a high concentrationof rishitin (300 µg ml^–1) in 1% Evans blue rapidlyaccumulated the stain within the cells. The nuclei stained particularlystrongly and frequently increased in diameter, and many chloroplastslysed, suggesting rapid effects on several cell membranes. Approximately30% of isolated chloroplasts suspended in 0.15 M phosphate buffer,pH 6.5, were lysed by the addition of 300 µg ml^–1rishitin. Rishitin only slightly affected the rate of respirationof isolated tobacco protoplasts whereas 100 µg ml^–1phaseollin caused a rapid increase prior to a marked decreasein respiration rate. Rishitin increased the permeability of liposomes to a rangeof low molecular weight non-electrolytes particularly when mixedwith the lecithin prior to liposome formation. Rishitin affectednegatively charged and positively charged liposomes equally.Liposome permeability was affected more by rishitin than byphytuberin thereby correlating with rishitin's higher toxicityto plants, fungi, and bacteria. Rishitin affected the transitiontemperature of liposomes prepared from dimyristoyl-L-3-lecithin.These results suggest that the effect of rishitin on liposomesmay be by increasing membrane fluidity and that, in vivo, membranesmay be its primary site of action.     

K+ current inhibition by amphiphilic fatty acid metabolites in rat ventricular myocytes

Fatty acid metabolites accumulate in the heart underpathophysiological conditions that affect -oxidation and can elicit marked electrophysiological changes that are arrhythmogenic. The purpose of the present study was to determine the impact of amphiphilic fatty acid metabolites on K⁺currents that control cardiac refractoriness and excitability. Transient outward(I_to) andinward rectifier(I_K1)K⁺ currents were recorded by thewhole cell voltage-clamp technique in rat ventricular myocytes, and theeffects of two major fatty acid metabolites were examined:palmitoylcarnitine and palmitoyl-coenzyme A (palmitoyl-CoA).Palmitoylcarnitine (0.5-10 µM) caused a concentration-dependent decrease in I_todensity in myocytes internally dialyzed with the amphiphile; 10 µMreduced mean I_todensity at +60 mV by 62% compared with control(P < 0.05). In contrast, externalpalmitoylcarnitine at the same concentrations had no effect, nor didinternal dialysis significantly alterI_K1. Dialysiswith palmitoyl-CoA (1-10 µM) produced a smaller decrease inI_to densitycompared with that produced by palmitoylcarnitine; 10 µM reduced meanI_to density at+60 mV by 37% compared with control(P < 0.05). Both metabolites delayedrecovery of I_tofrom inactivation but did not affect voltage-dependent properties.Moreover, the effects of palmitoylcarnitine were relatively specific,as neither palmitate (10 µM) nor carnitine (10 µM) alone significantly influencedI_to when added tothe pipette solution. These data therefore suggest that amphiphilicfatty acid metabolites downregulateI_to channels by amechanism confined to the cytoplasmic side of the membrane. Thisdecrease in cardiac K⁺ channelactivity may delay repolarization under pathophysiological conditionsin which amphiphile accumulation is postulated to occur, such asdiabetes mellitus or myocardial infarction.

     

The Uptake of Gaseous Ammonia by the Leaves of Italian Ryegrass

Lockyer, D. R. and Whitehead, D. C. 1986. The uptake of gaseousammonia by the leaves of Italian ryegrass.—J. exp. Bot.37: 919–927. Plants of Italian ryegrass (Lolium multiflorum Lam.) grown insoil with two rates of added ¹⁵N-labelled nitrate were exposed,in chambers, for 40 d to NH₃ in the air at concentrations of16, 118 and 520 µg m^–3. At the highest concentrationof NH₃, this source provided 47?3% of the total nitrogen inplants grown with the lower rate of nitrate addition (100mgN kg^–1 dry soil) and 35?2% with the higher rate (200mgN kg^–1 dry soil) At the intermediate concentration ofNH₃, the contributions to total plant N were 19?6% and 10?8%,respectively, at low and high nitrate while, at the lowest concentrationof NH₃, they were 5?1% and 32%. Most of the N derived from theNH₃ remained in the leaves, but some was transported to theroots. The amount of N derived from the NH³ that was presentin the leaves was not reduced by washing the leaves in waterat pH 5?0 before harvesting, indicating that the N was assimilatedby the plant and not adsorbed superficially. Rates of uptakeof NH₃ per unit leaf area ranged from 1?7 µg dm^–2h^–1 at a concentration of 16 µg m^–3 to 29?0µg dm^–2 h^–1 at a concentration of 520 µgm^–3 and with the lower rate of nitrate addition. Increasingthe supply of nitrate to the roots slightly reduced the rateof uptake of NH₃ per unit leaf area. Uptake of N from the higherrate of nitrate was reduced at the highest concentration ofNH₃ in the air. Key words: Ammonia, nitrogen, leaf sorption, Lolium multiflorum     

Ultrastructural Changes in Chloroplasts of Quercus rotundifolia Lam. in Response to Evernic Acid

The amount of total chlorophyll, chlorophylls a and b as wellas the ratio of a to b decreased in chloroplasts isolated fromQuercus rotundifolia leaves, kept for 17 d in a solution of35.5 µM evernic acid in 1 mM Na HCO₃, when compared withthe chloroplasts of control leaves (kept in NaHCO₃). The chloroplastsin the spongy parenchyma were smaller and the amount of starchand plastoglobuli lower. The number of grana per chloroplastsection, the number of thylakoids per grana and the height ofgrana stacks were also less in the chloroplasts of leaves treatedwith evernic acid. Quantitative ultrastructural differenceswere determined by means of electron microscopy and image analysistechniques. Quercus rotundifolia Lam., chloroplasts, ultrastructure, lichens, evernic acid