THE EFFECT OF SELENITE ON THE PHYSIOLOGICAL AND MORPHOLOGICAL PROPERTIES OF THE BLUE-GREEN ALGA PHORMIDIUM LURIDUM VAR. OLIVACEA1

Phormidium luridum cultures were treated with sodium selenite in concentrations ranging from 10^?6 M to 10^?2 M. In contrast to the increasing culture turbidity of control and 10^?6 M selenite cultures, the turbidity of the other selenite cultures declined in proportion to time and selenite concentration. Chlorophyll extraction revealed similar results. Photosynthetic activity was inhibited within 6 hr in all cultures except control and 10^?6 M selenite. Phormidium at concentrations greater than 10^?6 M selenite showed a gradual loss of the bright green color and turned semitransparent. Cell-associated granules of reduced selenium were observed at higher selenite concentrations. Other structural changes observed were the presence of intracellular and intercellular spaces, spheroplast formation, and gradual cell lysis. Protein analyses of total cell samples and supernatant fractions confirmed cellular breakdown of selenite-treated algal cells.     

Anomalous enhancing effect of hydroxyurea on DNA synthesis

$\text{In vitro}$ cultures of $\text{Crithidia}$ sp. were exposed to various concentrations of hydroxyurea (HU) during the logarithmic phase. In the presence of 5 × 10^?2M HU, cell division was completely blocked after an initial increase in cell numbers by about 20%. Inhibition of incorporation of ³H-thymidine into acid-insoluble material was effective within 1 hr of exposure to the drug (5 × 10^?2M) and it reached a level of 80% after 8 hr. At lower concentrations (5 × 10^?4M ? 1 × 10^?3M), however, incorporation of ³H-thymidine was remarkably increased while cell division remained unaffected indicating that the increase in incorporation was not due to increased DNA synthesis in preparation for cell division.     

Ecdysteroid control of ionic current development in Manduca sexta motoneurons

The steroid hormone 20-hydroxyecdysone (20-HE) regulates several processes during insect metamorphosis. We studied the effects of 20-HE on the development of voltage-sensitive ionic currents of thoracic leg motoneurons of Manduca sexta. The larval leg motoneurons persist throughout metamorphosis but undergo substantial morphological reorganization, which is under the control of 20-HE and accompanied by changes in Ca²⁺ and K⁺ current densities. To determine whether 20-HE controls the changes in Ca²⁺ and K⁺ current levels during postembryonic development, identified thoracic leg motoneurons isolated from late larval and early pupal stages were taken into primary cell culture. Whole-cell Ca²⁺ and K⁺ currents were measured after 1–4 days of steroid hormone incubation. In the presence of 20-HE, peak Ca²⁺ currents of pupal leg motoneurons increased from day 1 to day 4 in vitro. Thus, at culture day 4 the pupal Ca²⁺ current levels were larger in 20-HE–treated than in untreated cells. By contrast, 20-HE did not affect the Ca²⁺ current amplitudes of larval leg motoneurons. Whole-cell K⁺ currents, measured at 4 days in pupal motoneurons, consisted of a fast-activating transient current and a sustained, slowly inactivating current. 20-HE did not affect the amplitude of the transient or sustained currents after 4 days in vitro. Thus, a direct steroid hormone effect may control the proper maturation of voltage-sensitive Ca²⁺ currents in leg motoneurons. © 1998 John Wiley & Sons, Inc. J Neurobiol 37: 211–223, 1998     

The Effect of Environmental Conditions on the Expression of Disease in Cultured Tissues of Brassica napus ssp. oldfera Infected with Leptosphaeria maculans

As a basis for devising an in vitro screening programme, culture conditions were optimized so that tissue cultures from two resistant cultivars of Brassica napus ssp. oleifera (Mikado, Bienvenu) and two susceptible cultivars (Lesira, Ceres) could be differentiated using a disease scoring scheme, when inoculated with Leptosphaeria maculans. Tissues inoculated included thin cell layer explants from soil-grown plants and in vitro-grown shoot cultures and callus tissue formed on such explants. The period of incubation and the incubation temperature were of importance in the development of differential disease reactions. Increasing temperature generally resulted in an increase in infection and too great an incubation period resulted in total overgrowth of the tissue. Increasing concentrations (1 × 10^?6 M-1 ×10^?4 M) of the auxins 1-naphthylacetic acid (NAA), 2,4-dichlorophenoxyacetic acid (2,4-D) and mdole-3-acetic acid (IAA) in the culture medium, resulted in a decrease in disease score of the thin cell layer (TCL) explants from soil-grown plants. The cytokinins examined 6-benzyl-aminopurine (BAP) and 6-4-hydroxy-3-methyl-2-enylaminopurine (zeatin), reduced the extent of infection of the TCL explants when used in combination with the auxin NAA. Medium containing NAA at a concentration of 1 × 10^?6 M in combination with BAP at a concentration of 1× 10^?6 or 1 × 10^?4 M allowed differentiation of the disease reactions of the resistant and susceptible cultivars, when the explants were incubated for 10 days at 20 °C after inoculation. Similar conditions of incubation and the addition of NAA (1 × 10^?6 M) combined with BAP (1 × 10^?6 M) to the medium also allowed the differentiation of the disease reactions on TCL explants from stems of in vitro shoot cultures of the cultivars Mikado and Lesira. Increasing concentrations of the auxin NAA and the cytokinin BAP resulted in a reduction in the mean disease score of the callus tissue produced on TCL explants from soil-grown plants, and NAA (1 × 10^?5 M) combined with BAP (1 × 10^?6 or 1 × 10^?5 M) allowed differentiation of resistance and susceptibility in callus tissues when incubated for 5 days at 20 °C. 2,4-D did not allow differentiation of the cultivars. This was in contrast to the inoculation of callus tissue attached to TCL explants of in vitro shoot cultures, where combinations of 2,4-D and BAP at concentrations of 1 × 10^?6 M allowed differentiation of the resistant and susceptible cultivars. These findings provide a basis for designing selection protocols of value in both traditional as well as in vitro breeding programmes to select lines of oilseed rape with resistance/novel resistance to L. maculans.     

Ricerche sulla fisiologia dell' acido ascorbico. XXVI. Sull' azione inibente dell' acido βindolacetico nei confronti dell' inverdimento e sulla capacità dell' acido ascorbico di impedirne l' azione

Abstract

INIBITION OF GREENING BY INDOLACETIC ACID AND ITS PREVENTION BY ASCORBIC ACID. — Stem apex portions from etiolated pea plants (Pisum sativum var. Alaska) were grown in a dark room thermoregulated at 25°C until the development of the third internode and after excission kept in light for 20 hours. Greening on these isolated portions is sharply inhibited by indolacetic acid at concentrations varying from 10^?3M to 10^?6M. The highest inhibition, that is about 40%, correspònds to the highest concentrations (10^?3M). A scarcely significant stimulus is registered at the 10^?6M concentration of indolacetic acid.

Using much younger material (plants 4 days instead of 8 days old) the inhibition caused by treatments with indolacetic acid results greater (the maximum inhibition, always at 10^?3M, reaches about 60%), perhaps as a consequence of the greatest concentration of endogenous auxin.

Treatments with ascorbic acid, both in the reduced and oxydized form, at concentrations ranging from 10^?2M to 10^?1M do not cause any variation in respect of controls.

Ascorbic acid supplied with indolacetic acid greatly reduces the inhibiting effect on greening: some 40% of the inhibition by 5 × 10^?4M indolacetic acid being suppressed by 10^?3M ascorbic acid. Also for the greening process an antagonism between the action of ascorbic acid and that of auxin is thus demonstrated; which was previously demonstrated for various physiological processes (distension growth, water retention, cell multiplication, abscission, etc.) by several studies carried on in this Institute.     

Regulation of Crustacean Molting: A Multi-Hormonal System

SYNOPSIS. In order to increase in size, arthropods must firstmolt (shed) their confining exoskeleton. This molting processis under the immediate control of the steroid molting hormone20-hydroxyecdysone (20-HE). Both the initial rise in circulatinghormone concentration and a coordinated decline are necessaryfor successful molting. Synthesis and/or release of ecdysone,the precursor to 20-HE, is regulated by the neuropeptide molt-inhibitinghormone (MIH). We have determined the primary amino acid sequenceof MIH in the lobster, Homarus americanus. This peptide hasa high degree of identity with the lobster hyperglycemic hormone.Another endocrine factor that appears to be involved in moltingis the juvenile hormone-like terpenoid methyl farnesoate (MF).We have characterized hemolymph MF binding proteins during themolt cycle. In addition, recent data indicate that MF may stimulatethe secretion of 20-HE in vivo and in vitro.     

Scorpion neurotoxin - a presynaptic toxin which affects both Na+ and K+ channels in axons.

A neurotoxin from the venom of the scorpion, $\text{Androctonus australis Hector}$, affects the closing of the Na⁺ channel and the opening of the K⁺ channel in giant axons of crayfish and lobster nerves. It blocks both Na⁺ and K⁺ conductances in $\text{Sepia}$ giant axons. Dose-response curves are markedly cooperative with all types of axons. Apparent dissociation constants for the receptor-toxin complexes are 0.25 μM, 0.7 μM and 2–4 μM for the crayfish, lobster and $\text{Sepia}$ axons, respectively. This toxin will be probably a useful tool for biochemical investigation of Na⁺ and K⁺ channels.     

THE EFFECT OF IRON NUTRITION ON PHOTOSYNTHESIS AND NITROGEN FIXATION IN CULTURES OF TRICHODESMIUM (CYANOPHYCEAE)1

Cultures of Trichodesmium NIBB 1067 were grown in the synthetic medium AQUIL with a range of iron added from none to 5 × 10^?7 M Fe for 15 days. Chlorophyll-a, cell counts, and total cell volume were two or three times higher in medium with 10^?7 M Fe than with no added Fe. Oxygen production rate per chlorophyll-a was over 60% higher with higher iron. Increased iron stimulated photosynthesis at all irradiances from about 12–250 μE · m^?2· s^?1. Nitrogen fixation rate, estimated from acetylene reduction, for 10^?7 and 10^?8 M Fe cultures was approximately twice that of the cultures with no added Fe. The range of rates of O₂ production and N₂ fixation in cultures at the iron concentrations we used were similar to the rates from natural samples of Trichodesmium from both the Atlantic, and the Pacific oceans. This similarity may allow this clone to be used, with some caution, for future physiological ecology studies. This study demonstrates the importance of iron to photosynthesis and nitrogen fixation and suggests that Trichodesmium plays a central role in the biogeochemical cycles of iron, carbon and nitrogen.     

Feedback inhibition of ecdysone production by 20-hydroxyecdysone during pupal—adult metamorphosis of Mamestra configurata wlk

Large peaks of ecdysone (E, 2,875 ng/g live wt) and 20-hydroxyecdysone (20-HE, 2,150 ng/g live wt) occur on days 8 and 12, respectively, of postdiapause pupal-adult metamorphosis at 20°C in the bertha armyworm, Mamestra configurata, and then decline to low levels (< 100 ng/g live wt) prior to eclosion of the moth (50% eclosion at day 31.8). These peaks of E and 20-HE can be suppressed by treating the developing pupae with a physiological dose (2,500 ng/g live wt) of 20-HE. Suppression of E and 20-HE by 20-HE treatment was dose dependent, rapid (within 24 h of treatment) and permanent. The peaks of E and 20-HE were suppressed by 20-HE treatment on days 1, 3, 5, and 7 but the 20-HE peak was not suppressed by treatment on days 9 or 11. It is proposed that the mechanism by which 20-HE suppresses the production of E and thereby its own production forms a negative feedback loop that operates during the first 0.4 units of pupal-adult development in M. configurata. The function of the transitory peaks of E and 20-HE that form this feedback loop is currently unknown. Since most adults from pupae that had their ecdysteroid levels experimentally suppressed by 20-HE treatment were morphologically normal, it seems that the peaks of E and 20-HE have little or no function in controlling morphological development in pupae of M. configurata.     

Effect of Heavy Metal Ions on the Growth and Iron-oxidizing Activity of Thiobacillus ferrooxidans

Effect of heavy metal ions on the growth and the iron-oxidizing activity of Thiobacillus ferrooxidans were investigated.

Cupric, zinc, cadmium, and chromium ions had no effect on the growth and the iron-oxidizing activity of cell suspensions or cell-free extracts of the bacterium in high concentrations (10^?3~10^?2M). Lead ion delayed the start of the growth slightly in 10^?3 M, but it did not inhibit the iron-oxidizing activity of the cells in the concentration. Tin and molybdenum oxide ions inhibited both of them in the concentration above 10^?3 M.

Mercuric mercurous, and silver ions had the most harmful effect. In the concentration of 10^?3 .M, each of the cations inhibited almost completely both the growth and the iron-oxidizing activity of the cells.

In the experiments with cell-free extracts it was observed that the activity of cytochrome oxidase (cytochrome a₅₉₇) operating in the iron-oxidizing system of the bacterium was specifically inhibited with mercuric ion in the concentration above 5 × 10^?4 M.     

Hydrocortisone stimulates fibronectin synthesis in cultured fibroblasts

The effect of hydrocortisone on fibronectin synthesis was investigated in cultured skin fibroblasis. Confluent cells were treated with hydrocortisone (10^?7 M to 10^?5 M) for 2 days and labeled with [³H]proline for 24 h. Fibronectin levels in both the culture medium and the cell layer were studied by gelatin-Sepharose affinity chromatography and SDS-polyacrylamide gel electrophoresis. In control cultures of human fetal skin fibroblasts, fibronectin constituted 8% of the total labeled proteins in the medium. The proportion of fibronectin increased to 13.1% at 10^?7 M hydrocortisone, 15.5% at 10^?6 M and to 19.4% at 10^?5 M. The proportion of fibronectin associated with the cell layer remained at 2-3% of total [³H]prolne-labeled proteins and did not increase with hydrocortisone exposure. The stimulating effect of hydrocortisone on medium fibronectin was also demonstrated in cultured human newborn foreskin fibroblasts and in rabbit skin fibroblasts.     

Enhancement of phenylethanoid glycosides biosynthesis in cell cultures of <Emphasis Type="Italic">Cistanche deserticola</Emphasis> by osmotic stress

The effect of osmotic stress on cell growth and phenylethanoid glycosides (PeGs) biosynthesis was investigated in cell suspension cultures of Cistanche deserticola Y. C. Ma, a desert medicinal plant grown in west region of China. Various initial sucrose concentrations significantly affected cell growth and PeGs biosynthesis in the suspension cultures, and the highest dry weight and PeGs accumulation reached 15.9 g l⁻¹-DW and 20.7 mg g⁻¹-DW respectively at the initial osmotic stress of 300 mOsm kg⁻¹ where the sucrose concentration was 175.3 mM. Stoichiometric analysis with different combinations of sucrose and non-metabolic sugar (mannitol) or non-sugar osmotic agents (PEG and NaCl) revealed that osmotic stress itself was an important factor for enhancing PeGs biosynthesis in cell suspension cultures of C. deserticola. The maximum PeGs contents of 26.9 and 23.8 mg g⁻¹-DW were obtained after 21 days at the combinations of 87.6 mM sucrose with 164.7 mM mannitol (303 mOsm kg⁻¹) or 20 mM PEG respectively, which was higher than that of C. deserticola cell cultures grown under an initial sucrose concentration of 175.3 mM after 30 days. The stimulated PeGs accumulation in the cell suspension cultures was correlated to the increase of phenylalanine ammonium lyase (PAL) activity induced by osmotic stress.     

Effect of sodium selenite and methyl methanesulfonate or N-hydroxy-2-acetylaminofluorene co-exposure on sister-chromatid exchange production in human whole blood cultures

Sodium selenite (Na₂Se0₃) was tested for its sister-chromatid exchange (SCE)-inducing ability in human whole blood cultures and for the effect of its co-exposure with methyl methanesulfonate (MMS) or N-hydroxy-2-acetyl aminofluorene (N-OH-AAF) on SCE frequency. Long exposure times (77 h and 96 h) to 3.95 × 10^-6 M Na₂SeO₃ resulted in cell death as measured by mitotic indices, but mitotic figures were present after exposure to higher concentrations for a shorter time (19 h). High Na₂SeO₃ concentrations (7.90 × 10^?6 and 1.19 × 10^?5 M) resulted in a three-fold increase in the SCE frequency above background level (6–7 SCEs/cell). Exposure of lymphocytes to 1 × 10^?4 M MMS for the last 19 h of culture yielded an average SCE frequency of 30.17 ± 0.75 while a similar exposure to 2.7 × 10^?5 M N-OH-AAF resulted in 13.61 ± 0.43 SCEs/cell. Simultaneous addition of the high Na₂Se0₃ concentrations and MMS or N-OH-AAF to the cultures resulted in SCE frequencies that were 25–30% and 11–17%, respectively, below the sum of the SCE frequencies produced by the individual compounds.     

Kinetics of Pyruvate Decarboxylase Deactivation by Benzaldehyde

Based on experimental data, a kinetic model for the deactivation of partially purified pyruvate decarboxylase (PDC) by benzaldehyde (0–200 mM) in MOPS buffer (2.5 M) has been developed. An initial lag period prior to deactivation was found to occur. With first order dependencies of PDC deactivation on exposure time and on benzaldehyde concentration, a reaction time deactivation constant of 2.64×10^?3 h^?1 and a benzaldehyde deactivation coefficient of 1.98×10^?4 mM^?1 h^?1 were determined for benzaldehyde concentrations up to 200 mM. The PDC deactivation kinetic equations established in this study are an essential component in an overall model being developed to describe the enzymatic biotransformation of benzaldehyde and pyruvate to produce the pharmaceutical intermediate (R)-phenylacetylcarbinol (R-PAC).     

Oxygen consumption,ammonia excretion,and filtration rate of the marine bivalve Mytilus edulis exposed to methamidophos and omethoate

In this study, the oxygen consumption, ammonia excretion, and filtration rate were monitored in Mytilus edulis in response to administration of the two pesticides, methamidophos and omethoate. Five sublethal concentrations (1, 10, 50, 100, and 200 µgL^?1) were administered over 96 h. Oxygen consumption rates increased following administration of all concentrations of methamidophos for 96 h and to the lower concentrations of omethoate (1, 10, and 50 µg L^?1) from 6 to 24 h. Over 24 h, oxygen consumption decreased significantly. Ammonia excretion rates were higher than the control after 36 h of exposure to methamidophos, while reduction was observed when M. edulis was exposed to omethoate. The O:N ratios increased when the animals were first exposed to these two pesticides and then decreased at all the concentrations. At the concentrations of 100 and 200 µgL^?1, the O:N ratio was below 30 after 72 h. The filtration rate of M. edulis decreased with the increasing concentration of pesticide exposure.     

Cytotoxic effects of thiopyrimidines

The cytotoxic action of 2-thiouracil, 2-thiocytosine, 2-thiouridine and 4-thiouridine was studied in cultures of a clone of Chinese hamster cells with a generation time of 16 hours (S — 8 hours, G₂ — 2 hours, and G₁ plus M — 6 hours). The cells were synchronized at metaphase by the method of reversal of colcemid inhibition and cell survival was measured by their colony-forming ability. The four analogs induced cytotoxic effects which increased with the concentration of the chemical and the length of the exposure time. Exposure to 4 × 10^?4 M 2-thiocytosine, 2-thiouridine or 4-thiouridine for a period of 20 hours reduced cell survival to less than 10% of the controls. The other analog (2-thiouracil) was less effective when tested at similar concentrations and time of exposure and decreased the survival to only 35% of the controls. Short periods of treatment (one hour) produced little effect at concentrations of 4 × 10^?5M, and affected the survival of cells differently when 4 × 10^?4 M were administered at different stages of the cell cycle. Two peaks of maximum sensitivity, one at late G₁ and the other at G₂ were observed. These peaks correspond to the peaks of maximum RNA synthesis described for synchronized mammalian cells. Therefore, it is likely that the cytotoxic effects of thiopyrimidine analogs are related to interference with RNA synthesis.     

The influence of potassium ion (K+) on digoxin-induced inhibition of porcine cerebral cortex Na+/K+-ATPase

The in vitro influence of potassium ion modulations, in the concentration range 2 mM–500 mM, on digoxin-induced inhibition of porcine cerebral cortex Na⁺/K⁺-ATPase activity was studied. The response of enzymatic activity in the presence of various K⁺ concentrations to digoxin was biphasic, thereby, indicating the existence of two Na⁺/K⁺-ATPase isoforms, differing in the affinity towards the tested drug. Both isoforms showed higher sensitivity to digoxin in the presence of K⁺ ions below 20 mM in the medium assay. The IC₅₀ values for high/low isoforms 2.77 × 10^{? 6} M / 8.56 × 10^{? 5} M and 7.06 × 10^{? 7} M /1.87 × 10^{? 5} M were obtained in the presence of optimal (20 mM) and 2 mM K⁺, respectively. However, preincubation in the presence of elevated K⁺ concentration (50 – 500 mM) in the medium assay prior to Na⁺/K⁺-ATPase exposure to digoxin did not prevent the inhibition, i.e. IC₅₀ values for both isoforms was the same as in the presence of the optimal K⁺ concentration. On the contrary, addition of 200 mM K⁺ into the medium assay after 10 minutes exposure of Na⁺/K⁺-ATPase to digoxin, showed a time-dependent recovery effect on the inhibited enzymatic activity. Kinetic analysis showed that digoxin inhibited Na⁺/K⁺-ATPase by reducing maximum enzymatic velocity (V_max) and K_m, implying an uncompetitive mode of interaction.     

Comparative Effects and Concentration of Picloram, 2,4,5-T and Dicamba in Tissue Culture

In nutrient agar comparative concentrations (10^?3 to 10^?5M) of (2,4,5-trichlorophenoxy)acetic acid (2,4,5-T) were generally more inhibitory to the growth of tissue cultures of soybean (Glycine max (L.) Merrill cv. Acme) and cottonwood (Populus deltoides Marsh.) than were either 4-amino-3,5,6-trichloropicolinic acid (picloram) or 3,6-dichloro-o-anisic acid (dicamba). Compared to untreated tissue dicamba or picloram at 10^?6M in the nutrient agar resulted in a 200 % increase in the growth of soybean tissue. At 10^?5 and 10^?6M dicamba also produced an increase in the growth of cottonwood tissue. Greatest absorption of picloram and dicamba by tissue cultures from agar occurred during the first 24 h after treatment. However, absorption remained nearly static thereafter for 14 days. More dicamba was absorbed by soybean and cottonwood tissue cultures than either picloram or 2,4,5-T.     

Ethylene Production by Tobacco (Nicotiana tabacum) Callus

Tobacco callus cultures grown on defined agar-solidified media produced ethylene in differing amounts, which were related to cultural treatment and age of the callus. There was a close correlation between the rate of ethylene production and growth. In darkness, maximal rates occurred in the third week of growth with ethylene production in the range of 750 nl (callus piece)^?1 d^?1 (fr. wt. = 1.5 g), and in the light, maximal rates occurred in the first week of growth, 200 nl (callus piece)^?1 d^?1 (fr. wt. = 200 mg). Growth was also correlated with ethylene production when the latter was altered by exposure of the callus to inhibitors of ethylene synthesis, L-canaline, benzyl isothiocyanate, and 3,5-diiodo-4-hydroxy-benzoic acid. No correlation was found following treatment with AgNO₃, a presumptive inhibitor of ethylene action. The inhibition of growth and ethylene production by L-canaline was partially reversed by gassing the cultures with ethylene (1 μl/1). A mercuric perchlorate sink had no significant effect on growth. A possible relationship between ethylene evolution and growth is discussed.