Polyamines in Cultured Artichoke Explants: Effects are Primarily on Xylogenesis Rather than Cell Division

Phillips, R., Press, M. C, Bingham, L. and Grimmer, C. 1988.Polyamines in cultured artichoke explants: effects are primarilyon xylogenesis rather than cell division.—J. exp. Bot.39: 473–480 The relationship between cell division and xylogenesis and polyaminemetabolism was investigated in short-term cultures of Helkmthustuberosus tuber explants via studies on inhibitors of polyaminebiosynthesis, exogenous supply of spermidine and comparisonsbetween proliferating and non-proliferating treatments. Difluoromethylarginine(DFMA) and difluoromethylornithine (DFMO) did not substantiallyaffect cell division rates but were inhibitory to xylem differentiation,especially higher concentrations of DFMO, which also stimulatedendogenous spermidine accumulation. Exogenously supplied spermidineinhibited xylogenesis much more than cell division at concentrationsof 1.0 mol m-3 and above after 3 d culture. A possible inversecorrelation between spermidine accumulation and cytodifferentiationis discussed. No significant differences in polyamines werefound between proliferating cultures and those in which DNAreplication and mitosis were blocked by gamma-irradiation, exceptfor the late appearance of putrescine in irradiated cultures,possibly as a senescence response. Key words: Polyamines, DFMA, DFMO, Helianthus tuberosus, cultured explants, cell division, xylem differentiation     

Characterization of Mitotic Cycles Preceding Xylogenesis in Cultured Explants of Helianthus tuberosus L.

The number of mitotic cycles intervening between the transferof dormant Helianthus tuberosus (Jerusalem artichoke) tuberexplants to culture medium and the differentiation of the firsttracheary elements at 48 h was investigated by a pulse-labellingtechnique employing quantitative autoradiography. Silver-graincounts indicated that differentiation was preceded by threemitotic cycles Duration of the cell cycle phases were estimatedby a pulse-labelling method. From calculation of the phase durationsit was estimated that the first visible signs of tracheary elementdifferentiation occurred from 7–10 h after the last mitosis. Helianthus tuberosus L., Jerusalem artichoke, tracheary elements, cultured explants, tissue culture, mitotic cycles, cell cycle, tritiated thymidine, autoradiography     

Effect of Ethylene and Ethylene Precursors on Protein Phosphorylation and Xylogenesis in Tuber Explants of Helianthus tuberosus (L.)

Koritsas, V. M. 1988. Effect of ethylene and ethylene precursorson protein phosphorylation and xylogenesis in tuber explantsof Helianthus tuberosus (L.).J. exp. Bot. 39: 375–386. The role of ethylene in protein phosphorylation and xylem-celldifferentiation was studied in explant cultures of Jerusalemartichoke, Helianthus tuberosus (L.). Explants on xylem-inducingmedium growing at 25 °C developed more xylem elements andproduced more ethylene gas within 3 d of culture than controlcultures growing and developing at similar rates. L-methionineand 1-aminocdopropane-1-carboxylic acid (ACC) incorporated intoboth xylem-inducing and control media enhanced xylem differentiation,increased protein levels and stimulated protein kinase activityin the explants. Inhibitors of the ethylene biosynthetic pathway,cobalt nitrate and aminoethoxyinyl glycine (AVG), depressedxylem differentiation, protein phosphorylation and polypeptidesynthesis. Ethylene gas or ACC reversed the effects of the inhibitors.Ethylene production, protein phosphoryilation and xylem-celldifferentiation were all linked. Ethylene thus promotes xylem-celldifferentiation in Jerusalem artichoke explants, the processprobably being regulated by protein phosphorylation. Key words: Ethylene, phosphorylation, xylem differentiation, Jerusalem artichoke explants     

Some inhibitory effects of gentamicin on plant tissue cultures

Summary Tracheary element differentiation in cultured explants of pith parenchyma isolated from heads of romaine lettuce (Lactuca sativa L. var. Romana) was strongly inhibited by concentrations of gentamicin sulfate recommended for tissue culture media (50 to 100 μg/ml). Similar results were obtained with cultured explants of Jerusalem artichoke tuber (Helianthus tuberosus L.). Callus formation was suppressed in the presence of increasing levels of gentamicin sulfate in both tissue systems. Plant tissue culture media employed in studies on cell division and xylem differentiation should be supplemented with this antibiotic in concentrations of 10 μg/ml or less according to these results.     

The Effect of L-Phenylalanine on Phenylalanine Ammonia-lyase and Cell Division in Artichoke Callus Culture

5 x 10^–5 M L-phenylalanine overcame the inhibitory effectof white light on cell division in artichoke callus culturesand increased extractable phenylalanine ammonia-lyase (PAL)activity compared to cultures grown in the presence of 5 x 10^–4M phenylalanine The lower concentration of the amino acid alsoenhanced rates of uptake and incorporation of ¹⁴C labelled phenylalaninethroughout G₁ and S. Differences between the two concentrationswere greatest during S with a 4-fold increase in uptake anda 3-fold increase in incorporation It is suggested thereforethat the capacity of 5 x10^–5 M phenylalanine to offsetthe light effect is due to an indirect stimulatory effect onamino acid and protein metabolism Increased levels of extractablePAL activity would then be reflected by this general stimulationof protein synthesis. Helianthus tuberosus L, Jerusalem artichoke, callus culture, cell division, phenylalanine ammonia-lyase     

The Role of Benzyladenine in the Differentiation of Tracheary Elements in Jerusalem Artichoke Tuber Explants Cultured in vitro

The role of benzyladenine (BA) in the differentiation of trachearyelements in Jerusalem artichoke (Helianthus tuberosus L.) tuberexplants was studied. For maximum differentiation of trachearyelements (25–30% of the cell population), treatment withoptimal concentrations of benzyladenine (5.0 mg dm^–3)in the presence of -naphthaleneacetic acid |NAA| (1.0 mg dm^–3)for the first 6 d was as effective as its continued presenceduring the entire 14 d period of study. A majority of the differentiatedtracheary element appeared between the 10th and 14th days ofculture. It was further observed that concentrations of activecytokinins in the tissue were considerably reduced within 2d after transfer from the BA-containing medium to a BA-freemedium. This was shown in three different ways: (1) monitoringthe amount of ethanol-soluble radioactivity at various timesafter transfer from |14C|-BA containing medium to BA-free medium;(2) bioassay of various cytokinin fractions from tissue extractseparated by thin layer chromatography; (3) indirect assay oftissue cytokinin activity through its interaction with abscisicacid for the promotion of auxin-induced cell division in thistissue. Both gibberellic acid (5.0 mg dm^–3) and abscisic acid(2–0 mg dm^–3) effectively inhibited the differentiationof tracheary elements even if provided after 6 d of pre-incubationin a high tracheid inducing medium. However, the appearanceof differentiated cells for the first 2 d after transfer wasnot significantly affected. A hypothetical scheme for the role of benzyladenine in the differentiationof tracheary elements in this tissue is discussed. It is suggestedthat during one or more critical cell divisions in the presenceof optimal levels of benzyladenine, a proportion of cells areinduced or committed for later differentiation into trachearyelements. The high concentrations of benzyladenine requiredduring induction are not needed during the intervening celldivisions, nor for the actual differentiation of the trachearyelements. Key words: Tracheary element differentiation, Jerusalem artichoke (Heliantlus tuberosus), Benzyladenine, Gibberellic acid, Abscisic acid     

Effects of Sequential Exposure to Auxin and Cytokinin on Xylogenesis in Cultured Explants of Jerusalem Artichoke (Helianthus tuberosus L.)

During the course of a 4-d culture period, explants of Jerusalemartichoke tuber were exposed to auxin (0.2 mg 1^–1 2, 4-dichlorophenoxyaceticacid), and cytokinin (5.0 mg 1^–1 benzyl-amino purine),under a range of sequential regimes, to study the influenceof each hormone on tracheary element formation. The resultsindicate that auxin was necessary early in the culture periodand was primarily involved in cell proliferation. Cytokininstimulated xylogenesis when present late in the culture period,concomitant with the phase of cytodifferentiation, but not whenrestricted to the early period. The implications for a sustainedperiod of commitment to differentiation are discussed. Xylem differentiation, Jerusalem artichoke, auxin, cytokinin, tissue culture     

Inhibitory effect of fusicoccin on cell division

Rapid interactions in cell division and cytodifferentiationare induced by hormone treatments in dark-cultured explantsof Jerusalem artichoke. Fusicoccin, at concentrations between10^–6 and 10^–5 M, markedly inhibited the division-promotingactivity induced by plant hormones. Further, fusicoccin-treatedmeristematic root tips of Vicia faba and Allium cepa showeda rapid decrease in the mitotic index. Fusicoccin seems to inhibitsome hormone-sensitive processes required during the inductionand regulation of cell division. (Received March 28, 1979; )     

Hormonal Control of Xylogenesis in Pith Parenchyma Explants of Lactuca

The time course of xylem differentiation was determined in explantsof lettuce pith parenchyma (Lactuca sativa L. cv. Romana) culturedon Murashige and Skoog (1962) medium using different concentrationsof auxin (IAA) and one cytokinin (zeatin or kinetin). Increasinglevels of auxin from I mg 1^–1 to 15 mg 1^–1 in thepresence of a constant level of a cytokinin (zeatin or kinetin)yielded up to 10 mg 1^–1 IAA, an increase in the numberof tracheary element formations. Cytokinin concentrations aboveand below o.1 mg 1^–1 interacting with an optimal xylogenicamount of auxin inhibited xylogenesis. The IAA (10 mg 1^–1)-zeatin(0.1 mg ^1–1) treatment produced the greatest number oftracheids, while kinetin compared to zeatin did not producesuch an effect. The different effectiveness of zeatin and kinetinin inducing tracheary element formations was not due to a differentcapacity of the two cytokinins to stimulate cell division butit seems likely that zeatin, because of interaction with IAA,is more active than kinetin in the determination of the dividingcells in a specific type of cytodifferentiation. The IAA (10mg 1^–1)-zeatin (0.1 mg 1^–1) treatment produced about6.9 per cent tracheids with respect to cell division while IAA(10 mg 1^–1)-kinetin (0.1 mg 1^–1) produced 4.2 percent. These results are discussed with reference to the problemsof hormonal control of xylem differentiation.     

Polyamines, storage substances and abscisic acid-like inhibitors during dormancy and very early activation of Helianthus tuberosus tuber tissues

Abstract Dormancy and break of dormancy of tubers of Helianthus tuberosus L. (Jerusalem artichoke) have been investigated in regard to the possibility that polyamines can control these processes. Polyamines were detected by the method of direct dansylation and abscisic acid was bioassayed using wheat coleoptile growth test. Arginine and glutamine, which are the main store nitrogenous organic compounds of Helianthus tuberosus tuber, decrease during the last phase of dormancy as well as abscisic acid; moreover the corresponding increase in polyamines (putrescine, spermidine and spermine) seems to be strictly related to the break of dormancy of tuber. The artificial break of dormancy induced by 2,4-dichlorophenoxyacetic acid stimulates a great increase in polyamines, just evident within 15 min after activation, and a corresponding decrease in arginine and glutamine. The levels of polyamines, at 1 h of activation are sufficient to stimulate protein synthesis in vitro.     

Rapid differentiation of tracheary elements in cultured explants of Jerusalem artichoke

the culture of Jerusalem artichoke (Helianthus tuberosus L.) tuber explants on filter paper discs moistened with liquid medium resulted in rapid and consistent xylem differentiation. The number of tracheary elements increased in discrete steps, the first at 48 h with a second at 56–58 h, following partially synchronous mitoses at 20 and 30 h. Factors favouring xylem cell differentiation were optimum levels of both an auxin and a cytokinin, low medium nitrogen concentrations, small volumes of medium, and high culture temperatures. A cell counting method employing Feulgen-stained nuclei and suitable for quantifyings small numbers of immature tracheary elements is described.Abbreviations 2,4-D 2,4-Dichlorophenoxyacetic acid - NAA -naphthalene acetic acid - BAP benzylaminopurine - GA₃ gibberellic acid     

Direct differentiation of tracheary elements in cultured explants of gamma-irradiated tubers of Helianthus tuberosus

Exposure of Jerusalem artichoke (Helianthus tuberosus) tubers to 20 krad doses of -irradiation inhibits mitosis and DNA synthesis in cultures subsequently inititated from such material. When cultures were initiated from immature, developing tubers, tracheary elements differentiated from parenchyma cells in response to auxin in the culture medium. The capacity for direct differentiation in irradiated tissues declined with tuber maturity, and in fully mature tubers xylem differentiation only occurred in non-irradiated controls, following a period of cell division. An hypothesis concerning changes in developmental plasticity of cells in relation to the cell cycle is discussed.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - [³H]TdR tritiated thymidine     

Induction of Cell Division in Leaf Cells of Coconut Palm by Alteration of pH and its Correlation with Glyoxalase-I Activity

Cell division in suspension cultures obtained from leaf cellsof coconut was influenced by pH of the culture media. A 3-foldincrease in cell number was obtained at pH 7.0 compared to suspensionsgrowing at pH 5.0. The pH of both cells and media changed after48 h of growth. Internal cell pH showed a significant increasewhen cultures were grown at pH 7.0 and 8.0 and increased onlyslightly at pH 5.0 and 6.0. Glyoxalase-I activity of cells insuspension culture was found to be pH-depcndent, showing maximumactivity at pH 7.0. Glutathione, a co-enzyme for the substratemethylglyoxaJ for glyoxalase-I, produced a 2-fold increase incell number at a concentration of 5 x 10^–3 mol dm ^–3.The polyamine, spermidine, promoted cell division maximallyat a concentration of 10^–6 mol dm^–3. Methylglyoxal-bis(guanylhydrazone), an inhibitor of spermidine biosynthesis,strongly inhibited cell division giving maximum inhibition ata concentration of 3 x 10^–6 mol dm ^–3. These resultsindicate a positive correlation between cell division and glyoxalase-Iactivity. Key words: Cocos nucifera, glyoxalase-I, pH, spermidine     

DNA and histone content of immature tracheary elements from cultured artichoke explants

Relative amounts of DNA and histone were determined by Feulgen microdensitometry and alkaline fast-green microdensitometry in differentiating tracheary elements in cultured explants of Jerusalem artichoke (Helianthus tuberosus L.) tubers. The absence of endopolyploidy in cultured artichoke tissue was confirmed, and the nuclei of tracheary elements were exclusively at the 2C level for both DNA and histones.     

Regeneration of Tissues in Wounded Stems: A Quantitative Study

When a dicotyledonous stem is wounded by longitudinally splittinga young internode into halves, cells near the cut surface proliferateto form a callus within which vascular tissues differentiateand tend to restore a vascular cylinder in each half. Threephases of regeneration after wounding were identified and quantifiedin stems of three Solanaceous species. (1) In an initial ‘lag’phase, lasting about 2 d, neither cell division nor enlargementwere detected, but mitotic figures were observed within about300 µm of the cut surface. (2) Throughout a second, ‘division’phase, from about days 2–10, cell division and enlargementoccurred. Both were initiated mainly in the two cell layersnearest the surface. A mass of callus formed, with new cellwalls mostly parallel to the surface. Cell enlargement laggedbehind cell division for the first few days, so that mean radialcell diameter decreased until day 6, thereafter remaining almostconstant at 30–40 µm. Towards the end of this phase,mitoses ceased within the callus except in the positions ofthe future vascular and cork cambia, where radial cell diameterfell towards a constant 15–20 µm. (3) During a third,‘differentiation’ phase, cell division was restrictedto the cambial zones, and derivatives differentiated into cork,phloem or xylem according to position. The rate of increasein cell number per transect was 1.5–2.0 cells d^–1,of which more than half was xylem. Capsicum annuum L., sweet pepper, Lycopersicon esculentum Mill., tomato, cambium, cell division, differentiation, regeneration, wounding of stems, xylem     

The Induction of Differentiation of Organized Vessels in a Storage Organ

The organized differentiation of vascular tissues was studiedin a simple system which allowed vessel members to be followedindividually. Local application of auxin to pieces of turnipstorage root resulted in differentiation of vessel and sieveelements within two days. These are normally organized in alongitudinal fashion. The induction of differentiation is inhibitedby triiodobenzoic acid. The number of differentiated cells dependedon the auxin concentration and also on the length of time thetissue was allowed no differentiate. No vessel members wereobserved in less than 48 h and the minimum effective IAA concentrationwas 8 x 10^–6 M. The results established a simple, quantitativesystem for the study of vessel differentiation. Brassica campestris cv. Rapifera, auxin, differentiation, storage root, vessel, xylem     

Patterns of Nuclear and Nucleolar Growth in Synchronously Dividing Explants from Tubers of Helianthus tuberosus L.

The nucleus and nucleolus have been examined by phase contrastmicroscopy of isolated fixed nuclei from synchronously dividingcells of Helianthus tuberosus L. tuber explants grown in nutrientmedium on filter paper. The volumes of nuclei and nucleoli werecomputed from their areas and perimeters obtained by digitizingimages projected from film. The nuclei did not show a pattern of growth related to the Sphase but enlarged at times of both de-differentiation and differentiation.There was also rapid post-mitotic nuclear enlargement. The sizeattained by nuclei in the three successive divisions followingcell activation decreased progressively, but started to riseagain at the time of cell differentiation. The changes are discussed in relation to nuclear size regulation,the nuclear matrix and hypotheses relating nuclear growth toDNA, protein and water in the processes of de-differentiation,mitosis and differentiation. Nucleoli showed a clear fusion and growth cycle. The patternof fusion can be used to identify the position of a sample ofcells, though not any particular cell, within the cycle. Nucleolargrowth was different in the succeeding cell cycles that wereinduced in the de-differentiating tissue. Nucleolar enlargementwas slow in the first cycle and continued until mitosis. Therewas rapid nucleolar growth in the second cycle and none in latercycles until the time of cell differentiation. Nucleolar changes are discussed in relation to rRNA gene dosage,replication and polymerase availability. Helianthus tuberosus L. Jerusalem artichoke, isolated-nuclei, tissue culture, cell cycle, nucleolar cycle     

Polyamine Content in Relation to Embryo Growth and Dedifferentiation in Barley (Hordeum vulgare L.)

Putrescine, spermidine, and spermine content were analysed inzygotic embryos of barley (Hordeum vulgare L.). Changes in polyaminecontent were observed during zygotic embryo growth. In two cultivars,‘Bomi’ and ‘Golden Promise’, the totalpolyamine content in the embryos was 2.6–2.9 nmol mg^–1fresh weight 10 d after anthesis, the highest content observed.It dropped to 1.3 nmol mg^–1 fresh weight 14 d after anthesis.This drop was caused by decreases in all three polyamine concentrations.From 14 to 35 d after anthesis the putrescine content continuedto decrease while the spermidine and spermine content increased,thus the total polyamine content remained constant until 35d after anthesis. The mutant ‘Ris? 1508’ showeda constant polyamine content around 1.3 nmol mg^–1 freshweight from 14 to 35 d after anthesis. The polyamine patternwas conserved in all three lines throughout the period of investigationshowing a spermidine content higher than putrescine contentwhich was, in turn, higher or equal to the spermine content.The polyamine content measured as nmol µg^–1 proteindecreased from 14 to 21 d post anthesis in all three lines,because the protein content (µg mg^–1 fresh weight)increased during the period. In dedifferentiating zygotic embryoscultured in vitro the putrescine content (nmol mg^–1 freshweight) rose by a factor of nine and the spermidine contentdoubled within the first week of cultivation, whereas sperminecontent did not change. For embryoderived calli a repeated patternof change in polyamine content was observed throughout the subculturingperiod. Key words: Polyamines, Hordeum vulgare L., embryo development     

Relation of special RNA to sensitivity of yeast strains to auxin

RNA functional in auxin action was studied in the followingfour strains of yeasts differing in their sensitivity to auxin:KV2, diploid strain of Saccharomyces ellipsoideus irresponsiveto auxin but made responsive by gibberellic acid treatment;N55, auxinresponsive mutant derived from KV2; A2-0, diploidstrain of 5. cerevisiae irresponsive even when gibberellic acidis given; and A2–N102, responsive mutant derived fromA2–0. The RNA fraction extracted from N55 and partitionedin a phenol layer sensitized KV2 to auxin. This kind of RNAwas not detected in KV2 cells. The functional RNA from N55 wasof low molecular weight, as was functional RNA isolated fromgibberellic acid-treated Jerusalem artichoke tuber. Gibberellicacid-treated KV2 cells have been known to contain RNA whichfunctions similarly to the RNA mentioned above. Both A2–0and A2–N102 contained RNA which made KV2 cells responsiveto auxin. Some factors other than functional RNA may determinethe difference in the sensitivity to auxin between A2–0and A2–N102. (Received August 20, 1968; )     

In Vitro Regeneration from Seedling Organs of Brassica oleracea var. italica Plenck cv. Green Comet I. Effect of Plant Growth Regulators

The calabrese cultivar Brassica oleracea var. italica cv. GreenComet was used in a study of the effects of exogenous hormoneson the growth and differentiation of seedling organs in vitro.Four types of explants were tested: hypocotyl segments, rootsegments, primary leaf discs and cotyledon discs. These explantswere incubated on media containing factorial combinations ofBAP x IBA, BAP x NAA, KN x IBA and KN x NAA (all at 0, 0.1,10 and 10.0mg l^–1). Hypocotyls were the most regenerativeexplants; shoot production was favoured by cytokinin: auxinratios greater than one and was decreased by IBA at 10 mg l^–1when callus was produced. Shoot formation from root explantsoccurred either in the absence of hormones or with low concentrations;no shoot was produced when any hormone was present at 10 mgl^–1. In contrast, shoot production from primary leaf diseswas favoured by high concentrations of both auxin and cytokininwith the combination of BAP and IBA the most effective. Shootproduction from cotyledon discs was sporadic with no consistentresponse on any auxin/cytokinin combination. After further experimentson the optimization of hormone concentration, the followingcombinations were chosen as allowing reliable regeneration:0.1 mg l^–1 BAP+0.1mg l^–1 IBA for hypocotyl segments,0.075 mg l^–1 KN +0.025 mg l^–1 IBA for root segments,and 5.0 mg l^–1 BAP+5.0 mg l^–1 IBA for leaf discs. Brassica oleracea var. italica, calabrese, tissue culture, seedling, auxin, cytokinin