Characterization of Cu and Zn Resistant Nicotiana plumbaginifolia Suspension Cultures

The mechanisms of Cu and Zn resistance in cultured Nicotianaplumbaginifolia cells were investigated. When crude extractsof both the Cu and Zn resistant cells were passed through SephadexG-75 gel filtration columns, two metal containing peaks wereidentified. In each case the Cu or Zn was associated with ahigh molecular weight fraction (ca. 70,000) and a low molecularweight fraction (less than 3,000) with the majority being associatedwith the low molecular weight fraction. The low molecular weightfraction in particular increased upon exposure of the cellsto the metals. Both the Cu and Zn resistant cells accumulated higher levelsof citrate and malate than the wild type cells in the presenceof the metals. The addition of citrate or malate, but not fumarateor succinate to the culture medium prevented Cu or Zn toxicityto wild type cells. These results suggest that the N. plumbaginifoliacells selected as resistant to Cu or Zn are resistant, at leastin part, because of their ability to accumulate the chelators,citrate and malate, in the presence of the metals. ¹Present address: Plantech Research Institute, MCI ResearchCenter, 1000 Kamoshida-cho, Midoriku, Yokohama 227 Japan (Received June 30, 1986; Accepted December 1, 1986)     

Zinc Mobility in Wheat: Uptake and Distribution of Zinc Applied to Leaves or Roots

Little is known about transport of Zn from leaves to other plantorgans. The present study tested a range of Zn forms appliedfoliarly for their suitability to provide adequate Zn nutritionto wheat (Triticum aestivum L.). Transport of⁶⁵Zn applied eitherto leaves or to one side of the root system was also studied.Inorganic (ZnO, ZnSO₄) and chelated sources of Zn (ZnEDTA, glycine-chelatedBiomin Zn) applied foliarly provided sufficient Zn for vigorousgrowth. Zinc concentrations in roots and shoots were in thesufficiency range, except in the -Zn control. Foliar treatmentswith ZnSO₄and chelated Zn forms resulted in shoot Zn concentrationsin 7-week-old plants being about two-fold greater than thosein plants supplied with Zn in the root environment or via foliarspray of ZnO. Adding surfactant to foliar sprays containingchelated forms of Zn did not cause negative growth effects,but surfactant added to ZnO or ZnSO₄foliar sprays decreasedshoot growth. Adding urea to the ZnO foliar spray had no effecton shoot growth. Foliarly-applied⁶⁵Zn was translocated to leavesabove and below the treated leaf as well as to the root tips.Stem girdling confirmed that⁶⁵Zn transport toward lower leavesand roots was via the phloem. Split-root experiments showedintensive accumulation of⁶⁵Zn in the stem and transport to allleaves as well as to the root tips in the non-labelled sideof the root system. Foliar application of Zn in inorganic ororganic form is equally suitable for providing adequate Zn nutritionto wheat. Phloem transport of Zn from leaves to roots was demonstrated.Copyright 2001 Annals of Botany Company Foliar spraying, phloem, surfactant, urea, xylem, wheat, zinc     

Effects of Gibberellins and Their Methyl Esters on Dark Germination and Antheridium Formation in Lygodium japonicum and Anemia phyllitidis

The effects of GA₃, GA₄ and GA₉ and their methyl esters on darkspore germination and antheridium formation of the ferns Lygodiumjaponicum and Anemia phyllitidis were investigated. Althoughall induced both germination and antheridium formation in Lygodium,only the gibberellins induced these effects inAnemia. (Received August 28, 1986; Revision received November 14, 1986. )     

Accumulation of Inorganic Carbon in the Cells of Euglena gracilis Z Grown Photoautotrophically in Ordinary Air

Affinity for inorganic carbon in photosynthesis of Euglena gracilisZ was higher in the cells grown in ordinary air than in thosegrown in 4% CO₂. The cells grown in ordinary air accumulatedinorganic carbon in the cells to the level far in excess ofthat expected from passive diffusion due to pH gradient acrossthe cell surface membrane. (Received April 5, 1986; Accepted June 25, 1986)     

Distribution of enzymes related to C3 and C4 pathway of photosynthesis between mesophyll and bundle sheath cells of Panicum hians and Panicum milioides

Enzymes of the C₄, C₃ pathway and photorespiration have beenanalyzed for P. hians and P. milioides, which have chlorenchymatousbundle sheath cells in the leaves. On whole leaf extracts thelevels of PEP carboxylase are relatively low compared to C₄species, RuDP carboxylase is typical of C₃ species, and enzymesof photorespiratory metabolism appear somewhat intermediatebetween C₃ and C₄. Substantial levels of PEP carboxylase, RuDPcarboxylase, and photorespiratory enzymes were found in bothmesophyll and bundle sheath cells. Low levels of C₄-acid decarboxylatingenzymes may limit the capacity for C₄ photosynthesis in P. hiansand P. milioides. The results on enzyme activity and distributionbetween mesophyll and bundle sheath cells are consistent withCO₂ fixation via C₃ pathway in these two species. ¹ This research was supported by the College of Agriculturaland Life Sciences, University of Wisconsin, Madison; and bythe University of Wisconsin Research Committee with funds fromthe Wisconsin Alumni Research Foundation; and by the NationalScience Foundation Grant BMS 74-09611. (Received September 16, 1975; )     

Phosphoglycolate Phosphatase-Defident Mutants of Chlamydomonas reinhardtii Capable of Growth under Air

Mutants deficient in phosphoglycolate phosphatase (PGPase) requireelevated levels of CO₂ for growth in the light and cannot growwhen photorespiration occurs. Revertants, namely, double mutantscapable of growth under air without restoration of the missingPGPase activity, might be expected to have secondary mutationsthat reduce or eliminate photorespiration. Nineteen revertantswere selected from a culture of a PGPase-deficient mutant ofChlamydomonas reinhardtii (pgp-1-18-7F) after a second mutagenesisthat involved treatment with 5-fluorodeoxyuridine and ethylmethanesulfonate. There were significant differences in thephotosynthetic affinity for CO₂ among revertant cells grownunder 5% CO₂. Eight revertants had five times higher photosyntheticaffinity for CO₂ than that of wild type 2137 cells grown under5% CO₂, resembling air-adapted wild-type cells, whereas fourrevertants had less than half the affinity for CO₂ of the wildtype. In all of the revertant cells with higher affinity grownin 5% CO₂, the rates of photosynthesis under levels of CO₂ belowthose in air were apparently higher than that of the wild type,whereas the rates under CO₂-saturating conditions were lowerthan that of wild type, indicating that the efficiency of photosynthesisunder air was significantly improved in these revertants. Inaddition, some revertants had a photosynthetic capacity anda growth rate higher than those of the wild type, without anyincreased photosynthetic affinity for CO₂. (Received July 7, 1994; Accepted November 5, 1994)     

Zinc (Zn)-phosphorus (P) Interactions in Two Cultivars of Spring Wheat (Triticum aestivum L.) Differing in P Uptake Efficiency

Zinc-phosphorus (Zn-P) interactions were investigated in twowheat cultivars (Brookton and Krichauff) differing in P uptakeefficiency. The experiment was carried out in a growth chamber.Rock phosphate or CaHPO₄were used as P sources, and ammoniumnitrate or nitrate only as nitrogen sources. Two Zn levels wereused: 0.22 and 2.2 mg ZnSO₄.5H₂O kg^-1. The results confirmedthat Brookton had a higher P uptake efficiency than Krichauffunder low P conditions, irrespective of nitrogen and Zn supply.Zn supply had little effect on tissue P concentration and Puptake per unit of root weight in either cultivar, irrespectiveof nitrogen supply. An increase in P availability caused a significantreduction in Zn uptake per unit of root weight, and tissue concentrationof Zn in both cultivars. The reduction in tissue Zn concentrationcannot be explained entirely by a dilution effect. Zn uptakeby, and Zn concentrations in, Brookton (with high P uptake efficiency)were significantly lower than those of Krichauff. Zn concentrationsin Brookton were more sensitive to P uptake than those in Krichauff.It is suggested that high P uptake efficiency may depress plantuptake of Zn, and therefore cause a reduction in the concentration(density) of Zn in grains of wheats grown in low P (and possiblylow Zn) soils. Copyright 2001 Annals of Botany Company Phosphorus efficiency, translocation, uptake, zinc-phosphorus interaction, wheat     

Effects of Gibberellin on the Arrangement and the Cold Stability of Cortical Microtubules in Epidermal Cells of Pea Internodes

Longitudinal microtubules are predominant in epidermal cellsof the 3rd internodes of dwarf pea (Pisum sativum L. cv. LittleMarvel) seedlings. In more than 50% of the cells, cortical microtubulesare running parallel to the cell axis. GA₃ promotes elongation of the internodes and gives rise toa predominance of transverse microtubules. In more than 60%of the GA₃-treatd cells, cortical microtubules are running transverseto the cell axis. Longitudinal microtubules in the GA₃-untreated cells are resistantto low-temperature treatment, but transverse microtubules inthe GA₃-treated cells are sensitive to it. Longitudinal microtubulesare present in GA₃-treated epidermal cells with low frequency.They are resistant to low-temperature treatment. Longitudinal, oblique and transverse microtubules are presentwith almost the same frequency in epidermal cells of the 3rdinternodes of tall pea (cv. Early Alaska) seedlings. GA₃ promoteselongation of the internodes also in tall pea seedlings, butit does not alter the direction of cortical microtubules sodistinctly as it does in dwarf pea seedlings. As in dwarf pea seedlings, longitudinal microtubules are resistantto low-temperature treatment, and transverse microtubules aresensitive to it in tall pea seedlings. (Received September 19, 1986; Accepted December 26, 1986)     

Resistance of Photosynthesis to Hydrogen Peroxide in Algae

The effects of H₂O₂ on the photosynthetic fixation of CO₂ andon thiol-modulated enzymes involved in the photosynthetic reductionof carbon in algae were studied in a comparison with those inchloroplasts isolated from spinach leaves. In both systems,H₂O₂-scavenging enzymes were inhibited by addition of 0.1 mMNaN₃ 1 h prior to the addition of H₂O₂. A concentration (10^-4M) of H₂O₂ caused strong inhibition of the CO₂ fixation by intactspinach chloroplasts, as observed by Kaiser [(1976) Biochim.Biophys. Acta 440: 476], but not that by Euglena and Chlamydomonascells. The same results were also obtained with cells of thecyanobacteria Synechococcus PCC 7942 and Synechocystis PCC 6803in the presence of 1 mM hydroxylamine. These results indicatethat algal photosynthesis is rather resistant to H₂O₂. The insusceptibilityto H₂O₂ of thiolmodulated enzymes, namely, fructose-1,6-bisphosphatase,NADP-glyceraldehyde-3-phosphate dehydrogenase, and ribulose-5-phosphatekinase, was also observed in the chloroplasts of Euglena andChlamydomonas and in cyanobacterial cells. It seems likely thatthe resistance of photosynthesis to H₂O₂ is due in part to theinsusceptibility of the algal thiol-modulated enzymes to H₂O₂. (Received April 22, 1995; Accepted June 29, 1995)     

Effects of Gibberellins on Seed Germination of Phytochrome-Deficient Mutants of Arabidopsis thaliana

Experiments were carried out to explore the involvement of gibberellins(GAs) in the light-induced germination of Arabidopsis thaliana(L.) Heynh, using wild type (WT) and phytochrome-deficient mutants(phyA, phyB and phyAphyB deficient in phytochrome A, B and Aplus B, respectively). Seed germination of WT and phytochrome-deficientmutants was inhibited by uniconazole (an inhibitor of an earlystep in biosynthesis of GA, the oxidation of ent-kaurene) andprohexadione (an inhibitor of late steps, namely, 2rß-and 3rß-hydroxylation). This inhibition was overcomeby simultaneous application of 10^-5 M GA₄. The relative activityof GAs for promoting germination of uniconazole-treated seedswas GA₄>GA₁=GA₉>GA₂₀. The wild type and the phyA and phyBmutants had an increased response to a red light pulse in thepresence of GA₁, GA₄, GA₉, GA₂₀ and GA₂₄ but there were no significantdifferences in activity of each GA between the mutants. Therefore,neither phytochrome A nor hytochrome B appears to regulate GAbiosynthesis from GA₁₂ to GA₄ during seed germination, sincethe conversion of GA₁₂ to GA₉ is regulated by one enzyme (GA20-oxidase). However, GA responsiveness appears to be regulatedby phytochromes other than phytochromes A and B, since the phyAphyBdouble mutant retains the photoreversible increased responseto GAs after a red light pulse. (Received February 13, 1995; Accepted July 11, 1995)     

Effect of the Rht3 dwarfing gene on dynamics of cell extension in wheat leaves, and its modification by gibberellic acid and paclobutrazol

The second leaf of wheat was used as a model system to examinethe effects of the Rht3 dwarfing gene on leaf growth. Comparedto the rht3 wild type, the Rht3allele decreased final leaf length,surface area and dry mass by reducing the maximum growth rates,but without affecting growth duration. Gibberellic acid (GA₃)increased final leaf length and maximum growth rate in the rht3wild type, but was without effect on the Rht3 mutant, whichis generally regarded as being non-responsive to gibberellin(GA). Paclobutrazol, an inhibitor of GA biosynthesis, decreasedfinal leaf length and maximum growth rate in the rht3 wild typeto values similar to those in the untreated Rht3 mutant. NeitherGA₃ nor paclobutrazol affected the duration of leaf growth.The decrease in leaf length was produced by reduction of celllength rather than cell number. The maximum relative elementalgrowth rate (REGR) for cell extension was essentially the samein all treatments, as was the time between the cells leavingthe meristem and achieving maximum extension rate. The differencesbetween the genotypes and treatments were all almost entirelydue to differences in the time taken from the attainment ofmaximum REGR of cell extension to the cessation of extension.This was reflected in the length of the extension zone, whichwas approximately 6–8 per cent of final leaf length. Theeffects of the Rht3 allele, GA₃ and paclobutrazol all appearto be on the processes which promote the cessation of cell elongation. Key words: Cell extension, gibberellin, leaf growth, Rht3 gene, Triticum, wheat     

Gibberellin A12 Is Converted to Gibberellin A53 in Cultured Cells of Nicotiana tabacum and Catharanthus roseus

The metabolism of GA₁₂ and its precursors was investigated incultured cells of seven cell lines of Nicotiana tabacum andthree cell lines of Catharanthus roseus using ^l4C-labeled substrates.The presence of a metabolic pathway from ent-7-hydroxykaurenoicacid to GA₅₃ via GA₁₂-aldehyde and GA₁₂ was demonstrated inthe cultured cells. GA₁₂ was effectively converted to GA₅₃ incells of BY-2, 2b-4, 2b-13 and CG from N. tabacum. By contrast,GA₅₃ was not converted to any other GAs in all of the linesof cells examined. The metabolism of C₁₉-GAs was also examinedusing ³H-labeled substrates. The conversion of GA₂₀ to GA₂₉and GA, and of GA₄ to GA₃₄ occurred more efficiently in cellsfrom C. roseus than in cells from N. tabacum. However, 13-hydroxylationof GA₄ and GA₉ was not observed in any of the cell culturesexamined. Among the various metabolites, GA₅₃, GA₂₉ and GA₃₄were identified by full-scan GC/MS. (Received December 20, 1990; Accepted May 27, 1991)     

Metallothioneins 2 and 3 contribute to the metal-adapted phenotype but are not directly linked to Zn accumulation in the metal hyperaccumulator, Thlaspi caerulescens

To study the role of metallothioneins (MTs) in Zn accumulation,the expression of TcMT2a, TcMT2b, and TcMT3 was analysed inthree accessions and 15 F₃ families of two inter-accession crossesof the Cd/Zn hyperaccumulator Thlaspi caerulescens, with differentdegrees of Zn accumulation. The highest expression levels werefound in the shoots of a superior metal-accumulating calamineaccession from St Laurent le Minier, with >10-fold TcMT3expression compared with another calamine accession and a non-metallicolousaccession. Moreover, F₃ sibling lines from the inter-accessioncrosses that harboured the MT2a or MT3 allele from St Laurentle Minier had higher expression levels. However, there was noco-segregation of TcMT2a or TcMT3 expression and Zn accumulation.To examine the functions of TcMTs in plants, TcMT2a and TcMT3were ectopically expressed in Arabidopsis. The transformantlines had reduced root length in control medium but not at highmetal concentrations, suggesting that the ectopically expressedproteins interfered with the physiological availability of essentialmetals under limited supply. The Arabidopsis transformant linesdid not show increased tolerance to Cd, Cu, or Zn, nor increasedCd or Zn accumulation. Immunohistochemical analysis indicatedthat in roots, MT2 protein is localized in the epidermis androot hairs of both T. caerulescens and Arabidopsis thaliana.The results suggest that TcMT2a, TcMT2b, and TcMT3 are not primarilyinvolved in Zn accumulation as such. However, the elevated expressionlevels in the metallicolous accessions suggests that they docontribute to the metal-adapted phenotype, possibly throughimproving Cu homeostasis at high Zn and Cd body burdens. Alternatively,they might function as hypostatic enhancers of Zn or Cd tolerance. Key words: Cd, crosses, metallothionein, protein, quantitative real-time PCR, Thlaspi caerulescens, Zn Received 14 August 2008; Revised 14 October 2008 Accepted 15 October 2008     

Uptake of Lysine by Wild-Type and S-(2-Aminoethyl)-L-cysteine-Resistant Suspension-Cultured Cells of Triticum aestivum

The kinetics of uptake of L-lysine in wheat (Triticum aestivumcv. Chinese Spring) were analyzed in wild-type cells and inAEC-1 variant cells that are resistant to S-(2-aminoethyl)-L-cysteine(AEC). Uptake of lysine by AEC-1 cells was considerably slowerthan that by the wild-type cells. In the presence of carbonylcyanidem-chlorophenylhydrazone, the rates of uptake by both types ofcell were reduced to a similar linear component. Fitting theuptake data to one linear (diffusional) component and one Michaelis-Menten(active) system showed that, as compared to wild-type cells,AEC-1 cells have a reduced V_max and an increased K_m with respectto the active component, byt they have a similar diffusionalcomponent. Inhibition experiments with various amino acids indicatedthat the active component represents a carrier specific forbasic amino acids, which was competitively inhibited by AEC.The AEC-1 cells also showed reduced uptake of several neutraland acidic amino acids, but the rate of uptake of 3-O-methylglucosewas somewhat higher than that by wild-type cells. (Received May 16, 1989; Accepted September 4, 1989)     

The effects of temperature and the Rht3 dwarfing gene on growth, cell extension, and gibberellin content and responsiveness in the wheat leaf

The effects of low temperature and the Rht3 dwarfing gene onthe dynamics of cell extension in leaf 2 of wheat were examinedin relation to gibberellin (GA) content and GA-responsivenessof the extension zone. Leaf 2 of wild-type (rht3) wheat closelyresembled that of the Rht3 dwarf mutant when seedlings weregrown at 10C. The maximum relative elemental growth rate (REGR)within the extension zone in both genotypes was lower at 10Cthan at 20C, but the position with respect to the leaf basewas unaffected by temperature. The size of the extension zoneand epidermal cell lengths were similar in both genotypes at10C. Growth at 20C, instead of 10C, increased the lengthof the extension zone beyond the point of maximum REGR in thewild type, but not in the Rht3 mutant. Increasing temperatureresulted in longer epidermal cells in the wild type. Treatingwild-type plants at 10C with gibberellic acid (GA₃) also increasedthe length of the extension zone, but the Rht3 mutant was GA-non-responsive.However, the concentrations of endogenous GA₁ and GA₃ remainedsimilar across the extension zone of wild-type plants grownat both temperatures, despite large differences in leaf growthrates. The period of accelerating REGR as cells enter the extensionzone, and the maximum REGR attained, are apparently not affectedby GA. It is proposed that GA functions as a stimulus for continuedcell extension by preventing cell maturation in the region beyondmaximum REGR and that low temperature increases the sensitivitythreshold for GA action. Key words: Cell extension, gibberellin, Rht3 dwarfing gene, temperature, wheat leaf     

Transport and Fixation of Inorganic Carbon during Photosynthesis of Anabaena Grown under Ordinary Air. I. Active Species of Inorganic Carbon Utilized for Photosynthesis

Inorganic carbon transport during photosynthesis of cyanobacteriumAnabaena variabilis grown under ordinary air was investigatedby supplying ¹⁴CO₂ or H¹⁴CO₃^– solution to three differentstrains. Both CO₂ and HCO₃^– were accumulated within thealgal cells. In the cell suspension from which dissolved inorganiccarbon had been depleted by pre-illumination, CO₂ was transportedand accumulated faster than HCO₃^–. When the concentrationof HCO₃^– injected into the cell suspension of A. variabilisM3 was 25 times as high as that of CO2 (the expected ratio atequilibrium at pH 7.8), the initial rates of fixation of bothinorganic carbon species were practically the same. On the otherhand, when ¹⁴CO₂ or H¹⁴CO₃^– was added under steady statephotosynthetic conditions, both carbon species were transportedat similar rates. The ratio of fixed to transported carbon measuredafter the initial 5 s was only 23–27% regardless of thecarbon species supplied. This percentage is much lower thanthat reported for Chlorella cells. ¹ To whom reprint requests should be addressed (Received June 30, 1986; Accepted December 16, 1986)     

Amounts of Nuclear DNA and Internal Morphology of Gibberellin- and Abscisic Acid-deficient Tomato (Lycopersicon esculentum Mill.) Seeds During Maturation, Imbibition and Germination

Using X-ray photography and flow cytometry, the internal morphologyand DNA replication activity of wild type (wt), GA- (gib-1 )and ABA-deficient (sit^w ) tomato (Lycopersicon esculentum Mill.cv. Moneymaker) mutant seeds were studied. During seed formation,from 30 to 45 d after pollination (DAP) the endosperm becomessolid and the seed starts to gain desiccation tolerance. Atthis time significant changes occur in the amounts of DNA inradicle tip cells. At 30 DAP, radicle tip cells of the threegenotypes manifest about 60% of 2C, 30% of 4C and 10% of 8Camounts of DNA. Upon maturation (45 DAP onwards), most cellsin the seeds of the three genotypes arrest in the G₁phase ofthe cell-cycle with 2C amounts of DNA. However, a relativelyhigh proportion of cells with 4C amounts of DNA was detectedin the radicle tip cells ofsit^w compared with wild type andgib-1. At the well-matured stage (60 DAP), there were about 2% ofseeds with free space in wild type andgib-1 , and about 13%insit^w . At the over-matured stage (75 DAP), even more seedswith free space were found insit^w , whereas no increase in theproportion of the seeds with free space was detected in theother two genotypes. In -1.0 MPa PEG-6000 with or without 10µM GA₄₊₇, no germination occurred in well-matured wildtype andgib-1 seeds, whether or not they were dried after harvest.However,sit^w seeds were able to germinate both in over-maturefruit and in -1.0 MPa PEG-6000. Priming of dried seeds in -1.0MPa PEG induced a large amount of free space in almost all seedsof the three genotypes, and nuclear DNA synthesis in the radicletip cells of wild type andsit^w seeds. However, PEG priming offresh (non-dried) seeds had no effect on the amount of freespace and 2C/4C DNA ratios in wild type orgib-1 seeds, but didinduce free space in about 20–25% ofsit^w seeds and provoked4C signals insit^w seeds. Removal of the endosperm and testaopposite the radicle tip of seeds resulted in root protrusion,the induction of free space and an increase of 4C DNA signalsin the three genotypes. It is concluded that ABA is crucialfor the efficient arrest of tomato embryo radicle tip cellsin G₁phase upon maturation, whereas GAs play an important rolein re-initiating 4C DNA levels upon germination. Dormancy; flow cytometry; free space; Lycopersicon esculentum ; maturation; priming; seed; tomato     

Plant Characteristics and Nutrient Composition and Mobility of Broccoli (Brassica oleracea var. italica) Supplied with NH4+, NO3"" or NH4NO3

Shelp, B. J. 1987. Plant characteristics and nutrient compositionand mobility of broccoli (Brassica oleracea var. italica) suppliedwith NH⁺₄, NO₃ or NH₄NO₃.—J. exp. Bot. 38: 1603–1618. The effects of varying NH⁺₄, NO₃ or NH₄NO₃ concentration onthe final plant characteristics, element composition, and accumulationof NO₃-N, NH⁺₄-N and organic-N were evaluated in broccoli (Brassicaoleracea var. italicacv. Futura and Premium Crop) plants culturedin vermiculite under greenhouse conditions supplemented withlight. NH⁺₄-grown plants were stunted and exhibited signs ofmarginal necrosis on the old leaves, accompanied by an accumulationof NH4. The tissue levels of N, P, Mn, Cu, Zn and B were generallyincreased by NH⁺₄ versus NO₃ nutrition whereas the reverse wastrue for Ca; Mg and K were only slightly affected, if at all.These results are attributed to: changes in element availabilityresulting from reduced rhizosphere pH due to NH⁺₄uptake ratherthan NO ₃uptake; competition of Ca uptake by NH⁺₄; and dilutionof N by increased vegetative growth with NO₃-nutrition. Theelement concentrations of N, P or K were similar in all tissueswhereas Ca, B and Mn were markedly less in the florets and youngleaves compared to mature leaves; this supports literature indicatingthat the former elements are phloem-mobile whereas the latterare not. Assuming that the nutrient supply for mature leavesis delivered principally via the xylem stream, the data suggestthat nutrients for developing leaves and florets are suppliedpredominantly in the phloem. If so, under our experimental conditions.Zn and Cu were also readily mobile in the phloem whereas Mgmovement was restricted. NH₄⁺ versus NO₄⁺ J nutrition alteredthe distribution of these elements. The two broccoli cultivarstested under the greenhouse environment differed in NH⁺₄ toleranceand in the distribution of K and Cu suggesting there was a geneticbasis for cultivar variation in mineral acquisition and redistribution. Key words: Plant nutrition, phloem mobility, elemental composition.     

Expression of antioxidant enzymes in human inflammatory cells

Because antioxidant enzymesmay have an important role in the oxidant resistance ofinflammatory cells, we investigated the mRNA levels and specificactivities of manganese and copper-zinc superoxide dismutases (Mn SODand Cu,Zn SOD), catalase (Cat), and glutathione peroxidase, as well asthe concentrations of glutathione (GSH) in human neutrophils,monocytes, monocyte-derived macrophages, and alveolar macrophages.Levels of GSH and glutathione peroxidase activity in monocytes werethree times higher than in neutrophils, whereas the mRNA of Cat was50-fold and its specific activity 4-fold higher in neutrophils.Although Mn SOD mRNA levels were higher in neutrophils, enzymeactivities, as well as those of Cu,Zn SOD, were similar in allphagocytic cells. Neutrophils lost their viability, assessed by adeninenucleotide depletion, within 24 h ex vivo and more rapidly if GSH wasdepleted. However, neutrophils were the most resistant cell type toexogenousH₂O₂.In conclusion, high Cat activity of neutrophils appears to explaintheir high resistance against exogenousH₂O₂,whereas low GSH content and GSH-related enzymes seem to account for thepoor survival of human neutrophils.

     

A Mutant of Arabidopsis thaliana That Defines a New Locus for Glycine Decarboxylation

A novel photorespiratory mutant of Arabidopsis thaliana, designatedgld2, was isolated based on a growth requirement for abnormallyhigh levels of atmospheric CO₂. Photosynthetic CO₂ fixationwas inhibited in the mutant following illumination in air butnot in atmosphere containing 2% O₂. Photosynthetic assimilationof ¹⁴CO₂ in an atmosphere containing 50% O₂ resulted in accumulationof 48% of the soluble label in glycine in the mutant comparedto 9% in the wild type. The rate of glycine decarboxylationby isolated mitochondria from the mutant was reduced to 6% ofthe wild type rate. In genetic crosses, the mutant complementedtwo previously described photorespiratory mutants of A. thalianathat accumulate glycine during photosynthesis in air due todefects in glycine decarboxylase (glyD, now designated gld1)and serine transhydroxymethylase (stm). Because glycine decarboxylaseis a complex of four enzymes, these results are consistent witha mutation in a glycine decarboxylase subunit other than thataffected in the gld1 mutant. The two gld loci were mapped tochromosomes 2 and 5, respectively. ³Present address: Department of Crop and Soil Sciences, MichiganState University, East Lansing, MI 48824, U.S.A. ⁴Present address: Department of Applied Bioscience, Facultyof Agriculture, Hokkaido University, Kita-Ku, Sapporo, 060 Japan ⁵Present address: Department of Biology, Carnegie Institutionof Washington, 290 Panama Street, Standford, CA 94305, U.S.A.