Osmoregulation in Rhizobium meliloti: inhibition of growth by salts

A defined medium of low osmolarity was developed permitting growth of Rhizobium meliloti with generation times of approximately 2.8 h doubling^-1. The effects of sodium, potassium, magnesium, ammonium, chloride, sulfate, phosphate, bicarbonate and acetate ions on the growth rate of R. meliloti were determined. Sodium, potassium and ammonium ions had little effect on growth at concentrations of 100 mEq or less; magnesium ion inhibited growth severely at concentrations of 50 mEq (25 mM). Of the anions, chloride and sulfate appeared to have little effect while phosphate, bicarbonate, and acetate inhibited growth at concentrations of as little as 25 mEq. The addition of proline, glutamate, or betaine to cells growing in inhibitory concentrations of NaCl did not relieve the inhibition. When grown in the presence of inhibitory levels of NaCl, the intracellular concentration of glutamate but not of proline or gamma amino butyric acid increased 5-fold.     

Evaluation of Inhibitory Effect of Organic and Inorganic Salts Against Ilyonectria liriodendri,The Causal Agent of Root Rot Disease of Kiwifruit

This study evaluated efficacy of 42 organic and inorganic salts as possible alternatives to synthetic fungicides for the control of Ilyonectria root rot of kiwifruit. Preliminary in vitro tests showed that ammonium bicarbonate, ammonium carbonate, potassium benzoate, potassium sorbate, sodium benzoate and sodium metabisulphite at 2% completely inhibited mycelial growth of the fungus. No significant differences were observed among these salts and disodium EDTA (P ≤ 0.05). However, the ED₅₀, minimum inhibition concentration (MIC), and minimum fungicidal concentration (MFC) values indicated that sodium metabisulphite was more toxic to Ilyonectria liriodendri than these other six salts. Soil bioassays showed that sodium metabisulphite, sodium benzoate and potassium sorbate at 0.25% completely inhibited mycelial growth of the fungus, whereas potassium benzoate reduced the mycelial growth of fungus by 90.30%; however, the differences in inhibitory effects were statistically insignificant (P ≤ 0.05). Moreover, there was no significant difference between 0.1% sodium metabisulphite and 0.5% ammonium carbonate, 0.75% ammonium bicarbonate and 1.5–2.0% disodium EDTA (P ≤ 0.05). Unlike disodium EDTA, complete inhibitory was observed with ammonium carbonate and ammonium bicarbonate at higher concentrations. However, in root bioassays, applications of 2% ammonium bicarbonate, 1.5% ammonium carbonate and 2% disodium EDTA were phytotoxic to kiwifruit seedlings, but 0.25% four other salts were neither phytotoxic to kiwifruit seedlings nor did it adversely affect root length, root fresh weight and root dry weight of seedling. This study also showed I. liriodendri to be capable of growth in both acidic and basic environments. However, while the fungus showed uninhibited growth at pH values of 5–11, growth decreased significantly at both higher and lower pH values (P ≤ 0.05) and was completely inhibited at pH 12.     

pH Restraints on Lettuce Fruit Germination

The effects of buffers with a range of pH values and of concentrationslow enough to exert negligible osmotic stress on germinationof lettuce (Lactuca saliva L. cv. Arctic King) fruits were examined.No restraints were noted except at extremes of pH. Furthermoreinhibition in hydrochloric acid or potassium hydroxide solutionswas not evident below concentrations of about 0.05 M. Aceticacid or ammonium hydroxide were very much more inhibitory buttheir salt, ammonium acetate, only inhibited when its concentrationreached a sufficiently high level to operate by osmotic stress.Inhibition by a series of organic acids and bases showed a positivecorrelation with the lipophilie nature of the molecule althoughthere were some unexplained exceptions. In contrast with previouscases of germination inhibition the effect was not producedby a lowering of the upper temperature cut-off point but byan overall lowering of total germination at all temperatures.This is taken to indicate a toxic effect of pH extremes ratherthan a true inhibition.     

Effect of various salts on the growth and development of Geotrichum candidum,the causal agent of carrot sour rot

This study evaluated the efficacy of ammonium, calcium, potassium and sodium salts as possible alternatives to synthetic fungicides in the control of Geotrichum candidum, the causal agent of sour rot on carrots. In vitro mycelial growth of G. candidum was completely halted by ammonium bicarbonate and carbonate; calcium oxide; potassium benzoate, carbonate and sorbate; sodium benzoate, carbonate and fluoride (2% w/v). Potassium and sodium bicarbonate also reduced mycelial growth by 77.78% and 90.60%, respectively, and the difference between the effects of sodium bicarbonate and the first group of salts was not statistically significant (p < 0.05). With the exception of potassium and sodium bicarbonate, the above‐mentioned salts also halted or strongly reduced arthrospore germination. Potassium bicarbonate, and sodium bicarbonate, acetate and propionate significantly increased conidiation (p < 0.05). Of all the salts tested in vitro, only ammonium bicarbonate and carbonate, calcium oxide and sodium fluoride were toxic to G. candidum. In in vivo studies, all the calcium salts tested (acetate, chloride, citrate, formate, lactate, oxide, propionate and silicate), several of the sodium salts (acetate, bicarbonate, chloride and fluoride) and potassium bicarbonate exhibited both protective and curative activity against G. candidum, significantly reducing the severity of sour rot in comparison to pathogen‐inoculated controls (p < 0.05). Although no curative was observed with ammonium bicarbonate, ammonium carbonate, potassium carbonate, potassium chloride, sodium carbonate or sodium citrate, these salts also demonstrated significant protective activity against sour rot when compared to controls (p < 0.05). In sum, the study findings show that all of the selected salts may be used to control carrot sour rot, except for sodium fluoride, which exhibited phytotoxicity to carrots.     

Ammonium-stimulated,sodium-dependent uptake of glutamine in Bacillus pasteurii

The uptake of glutamine was studied in Bacillus pasteurii DSM 33. Only one uptake system was detected in the concentration range studied (between 1 and 100 M glutamine) which exhibited Michaelis-Menten saturation kinetics, with an apparent K _t of 10.7 (±3.5) M glutamine. The uptake was sodium-dependent (apparent K _t=0.2 mM Na⁺); none of several monovalent cations tested was able to replace sodium in the uptake reaction. Ionophores interfering with proton, sodium or potassium gradients across membranes strongly inhibited uptake of glutamine. Low uptake rates correlating with low potassium content and an acidic cytoplasm were measured in cells grown at high ammonium¹ concentrations. Ammonium and other permeant amines as well as potassium stimulated the uptake reaction in these cells, leading to an increase of up to 100-fold in V _max without affecting the affinity of the uptake system. In cells grown at low concentrations of ammonium, an alkaline cytoplasm and both high glutamine uptake activities and potassium content were measured; the uptake reaction was not further stimulated by permeant amines or potassium in such cells. Growth of the strain was inhibited by Tris at high concentrations; this inhibition was relieved by the addition of increasing amounts of ammonium.Abbreviations CCCP carbonylcyanide-m-chlorphenylhydrazone - DCCD dicyclohexylcarbodiimide This work is dedicated to Prof. Dr. H. Kaltwasser on the occasion of his 60th birthday     

Potassium influx into maize root systems : influence of root potassium concentration and ambient ammonium

Potassium influx into roots of dark-grown decapitated maize seedling (Zea mays L., cv Pioneer 3369A) was examined in presence and absence of ambient ammonium and at various root potassium concentrations. Six-day old seedlings which were dependent on the endosperm reserves for their energy source were exposed to KCl (labeled with ⁸⁶Rb) ranging from 5 to 200 micromolar. At both low (13 micromoles per gram fresh weight) and high (100 micromoles per gram fresh weight) root potassium concentration, isotherms indicated two potassium influx systems, one approaching saturation at 50 to 100 micromolar potassium and an additional one tentatively considered to be linear. A mixed-type inhibition by ammonium for the low-concentration saturable system was indicated by a concomitant decrease in V_max and increase in K_m. High root potassium concentration decreased V_max but had little effect on K_m of this system. The rate constant for the second quasilinear system was decreased by ambient ammonium and by high root potassium status. Transfer of high potassium roots to potassium-free solutions resulted in an increase in influx within 2 hours; by 24 hours influx significantly exceeded that of roots not previously exposed to potassium. In roots of both low and high root potassium concentrations, potassium influx was restricted progressively as ambient ammonium increased to about 100 micromolar, but there was little further inhibition as ammonium concentrations increased beyond that to 500 micromolar. The data imply that potassium influx has two components, one subject to inhibition by ambient ammonium and one relatively resistant.     

Effects of exogenous polyamines and difluoromethylornithine on seed germination and root growth of Arabidopsis thaliana

Effects of exogenous polyamines and difluoromethylornithine (DFMO) on seed germination and seedling root growth of Arabidopsis thaliana were investigated. Root growth was stimulated by low concentrations of putrescine but was increasingly inhibited by high concentrations of putrscine. DFMO inhibited root growth and this inhibition was reversed by applying putrescine. In contrast, both spermidine and spermine had no effect on root growth but inhibited seed germination. The results suggest a possible requirement of endogeneous putrescine for normal root growth of Arabidopsis seedlings.Abbreviations DFMO difluoromethylornithine - DFMA difluoromethylarginine - ODC ornithine decarboxylase - Put Putrescine - Spd Spermidine - Spm Spermine     

Ionic and non-ionic compounds in the germination of spores of bacillus megaterium texas

Summary Germination requirements of suspensions of spores of Bacillus megaterium, Texas strain, an l-alanine-inosine type, have been examined employing a decrease in optical density as the criterion of germination. In deionized water, l-alanine and inosine were devoid of germinative powers. They were effective only in conjunction with any one of a large variety of salts. Data are given for germination by the monovalent and divalent alkali metal chlorides. The potassium halides were germinative; potassium fluoride was the best. Salts of organic acids, including fatty acids and polycarboxylic acids, were germinative. The need for inosine could be bypassed by various salts, e.g., ammonium propionate or salts of dipicolinic acid. Also, l-alanine was replaceable by a variety of amino acids, provided suitable ions were present. In the presence of magnesium chloride, sodium dipicolinate could substitute for either inosine or l-alanine, but not both. Salts of n-hexylamine and n-heptylamine bypassed the need for both l-alanine and inosine. A primary role for ions in germination is proposed and a secondary, augmentative action is attributed to l-alanine and inosine.     

黄土丘陵区退耕还草植被恢复阶段优势种铁杆蒿的化感效应

为揭示黄土丘陵区退耕还草植被恢复阶段植被群落结构的形成与植物化感作用之间的关系,阐明退耕还草植被恢复阶段铁杆蒿群落形成的原因,采用种子萌发实验,对黄土丘陵区退耕还草中后期群落优势种铁杆蒿(恢复10 a、15 a、20 a、30 a)浸提液(水浸提液和甲醇浸提液)对其伴生种达乌里胡枝子(Lespedeza davurica,LD)、狗尾草(Setaria viridis,SV)、茵陈蒿(Artemisia capillaries,AC)以及铁杆蒿(Artemisia sacrorum,AS)自身化感作用进行研究。结果表明:铁杆蒿浸提液对3种伴生种以及自身种子萌发的化感作用差异显著(P0.05),总体表现出低促高抑"浓度效应",且根受到的抑制作用要强于芽。茎叶浸提液的浓度为0.1 g/mL时,对茵陈蒿种子萌发和幼苗生长的化感指数RI为-1.00,达到完全抑制。铁杆蒿不同器官的化感作用差异显著(P0.05),茎叶及根系浸提液不同程度的抑制LD、AC种子的萌发和幼苗生长,且在同一浓度下抑制作用随着恢复时间的增长逐渐增强。根际土浸提液促进了伴生植物及铁杆蒿自身种子的萌发,抑制了LD和AC幼苗的生长。铁杆蒿种群的化感作用可能是导致铁杆蒿在退耕还草中后期成为优势种的原因之一。     

Spore germination inCylindrospermum sp.: Influence of gases and growth conditions

Influence of different gases on spore germination ofCylindrospermum sp. revealed that acetylene and ethylene suppressed the germination which was more pronounced at their higher concentrations. Germination was completely inhibited under the atmosphere of hydrogen and argon even when supplied with 1% CO₂. Carbon dioxide, both in air and in N₂, stimulated the process. However, higher concentrations of CO₂ inhibited the germination in a concentration-dependent manner, possibly due to a decrease in pH. Germination was completely arrested in the absence of light and nutrients. The energetic requirement for germination was not efficiently fulfilled by photosystem I (PS II was blocked by 3-(3,4-dichlorophenyl)-1,1-dimethylurea) or under conditions of anoxygenic photosynthesis (medium supplemented with sodium sulfide).     

Effect of lithium salts on lactate dehydrogenase,adenylate kinase,and 1-phosphofructokinase activities

Inhibitions of 30?nM rabbit muscle 1-phosphofructokinase (PFK-1) by lithium, potassium, and sodium salts showed inhibition or not depending upon the anion present. Generally, potassium salts were more potent inhibitors than sodium salts; the extent of inhibition by lithium salts also varied with the anion. Li₂CO₃ was a relatively potent inhibitor of PFK-1 but LiCl and lithium acetate were not. Our results suggest that extents of inhibition by monovalent salts were due to both cations and anions, and the latter needs to be considered before inhibition can be credited to the cation. An explanation for monovalent salt inhibitions is proffered involving interactions of both cations and anions at negative and positive sites of PFK-1 that affect enzyme activity. Our studies suggest that lithium cations per se are not inhibitors: the inhibitors are the lithium salts, and we suggest that in vitro studies involving the effects of monovalent salts on enzymes should involve more than one anion.     

Photophysiology of turion germination inSpirodela polyrhiza (L.)Schleiden. The cause of germination inhibition by overcrowding

Red-light-induced (via phytochrome) germination decreased with increasing numbers of turions per germination flask (overcrowding). Three hypotheses concerning the mechanism of this germination inhibition were tested, related to abscisic acid, ethylene, and oxygen deficiency: (i) Although abscisic acid is a powerful inhibitor of turion germination it had to be excluded as a cause, because abscisic acid was not secreted from turions into the nutrient solution, (ii) Ethylene (ethrel) strongly inhibited growth of newly formed sprouts, but germination response itself was not inhibited, (iii) Germination inhibition did not appear if short light pulses were substituted by continuous irradiation. It reappeared in the presence of the photosynthesis inhibitor 3-(3, 4-dichlorophenyl)-l, 1-dimethylurea, but it was not observed in aerated nutrient solutions, or when Petri dishes instead of Erlenmeyer flasks were used. Decreased oxygen concentrations in the nutrient solution were produced by turion respiration. Consequently, anaerobiosis within the nutrient solution caused by turion respiration was the reason for germination inhibition by overcrowding.     

Inhibitory Effects of Methyl Jasmonate on the Germination and Ethylene Production in Cocklebur Seeds

Methyl jasmonate (JA-Me) inhibited the germination of cocklebur (Xanthium pennsylvanicum Wallr.) seeds. The inhibition of the germination of cocklebur seeds treated with JA-Me at concentrations less than 300 μm was nullified by ethylene applied exogenously, although the inhibitory effect of 1,000 μm JA-Me was not recovered completely even by high concentrations of ethylene (10,000 μL/liter). JA-Me inhibited ethylene production before seed germination. The level of 1-aminocyclopropane-1-carboxylic acid (ACC) in the cotyledonary tissues treated with JA-Me decreased but not the level of 1-(malonylamino)cyclopropane-1-carboxylic acid (MACC). JA-Me inhibited the conversion of ACC to ethylene in the tissues. These results suggested that JA-Me inhibits ethylene production by prevention of ACC oxidation in addition to ACC synthesis. We believe that the inhibition of ethylene production by JA-Me results in the retardation of the germination of cocklebur seeds. Received June 4, 1997; accepted October 23, 1997     

THE PURIFICATION AND PROPERTIES OF BOVINE PINEAL S-ADENOSYLMETHIONINE: N-ACETYLSEROTONIN O-METHYL TRANSFERASE

Abstract— Bovine pineal gland S-adenosylmethionine: N-acetylserotonin O-methyltransferase has been purified about 2800-fold using cell fractionation, ammonium sulphate treatment, Sephadex G-200 gel filtration and anion exchange chromatography. The enzyme has been found to be a polymer; the smallest unit observed had a mol. wt. of 21,800 and the other polymers' molecular weights were multiples of this figure. In the gland extract polymers of 83,000, 100,000, 125,000 and 150,000 mol. wt. were more abundant than the others; they showed also higher specific activity. One of the products of the reaction, S-adenosylhomocysteine was found to be a potent inhibitor, whereas the other product, melatonin, did not inhibit the bovine pineal gland enzyme, even at much higher concentrations. Homocysteic acid, cysteic acid, GSG and GSSG inhibited the enzyme. The required concentrations for this effect was 100 times higher than that of S-adenosylhomocysteine. The addition of GSH to the medium during purification led to complete loss of activity. Adenosine, homocysteine and other thio compounds had little or no effect. The enzyme was found to be activated by its substrates and also by certain anions. Among various organic acid salts, citric acid cycle intermediates were found to be good activators; their nonsubstituted analogues were not as effective. The activator effect of oxaloacetate and bicarbonate was the highest, and was brought about by relatively low concentrations of these anions (1–5 × 10^?3 M), hence their effect was considered specific. The degree of activation caused by oxaloacetate was decreased by increasing substrate concentrations and vice versa. The S-adenosylhomocysteine inhibition could not be reduced by increasing the substrate concentration; S-adenosylhomocysteine also inhibited the oxaloacetate-activated enzyme. These observations have been explained by the allosteric behaviour of the enzyme. The kinetic behaviour of various polymers was also investigated. The highest substrate and oxaloacetate activation and the highest S-adenosylhomocysteine inhibition was observed for polymers of 83,000, 100,000, 125,000 and 150,000 mol. wt. The K_m values for S-adenosylmethionine and ^N-acetylserotonin calculated for the oxaloacetate activated enzyme were also lower for these polymers than others.     

Inhibition of Lettuce Seed Germination and Root Elongation by Derivatives of Auxin and Reversal by Derivatives of Cycocel

Lettuce seed germination or lettuce root elongation after germination in water was inhibited by 5.7 × 10^-6M indoleacetic acid (IAA) and designated other IAA derivatives. These IAA-inhibited growth responses were reversed by 10^-5 to 10^-6M Cycocel, (2-chloroethyl) trimethylammonium chloride, which alone was without effect. Only those Cycocel analogs, which have previously been shown to be active as plant growth retardants, were effective in reversing IAA inhibition of germination or root elongation. These results are consistent with the concept that Cycocel at low concentrations acts as an auxin antagonist. However. Cycocel did not reverse the inhibitory effects from indole-3-propionic acid or indole-3-butyric acid.     

Simultaneous influx of ammonium and potassium into maize roots: kinetics and interactions

The interaction between ammonium and potassium during influx was examined in roots of dark-grown decapitated corn seedlings (Zea mays L., cv. Pioneer 3369A). Influx was measured during a 10-min exposure to either (¹⁵NH₄)₂SO₄ ranging from 10 to 200 M NH ₄ ⁺ with and without 200 M K(⁸⁶Rb)Cl or to K(⁸⁶Rb)Cl ranging from 10 to 200 M K⁺ with and without 200 M NH ₄ ⁺ as (¹⁵NH₄)₂SO₄. The simple Michaelis-Menten model described the data well only for potassium influx in the presence of ambient ammonium. For the other three instances, the data were improved by assuming that a second influx mechanism became operative as the low-concentration phase approached saturation. Two distinct mechanisms are thus indicated for both ammonium and potassium influx within the range of 10 to 200 M.The influx mechanism operating at low concentrations showed greater affinity for potassium than for ammonium, even though the capacity for ammonium transport was twice as large as that for potassium. It is suggested that this phase involved a common transport system for the two ions and that localized low acidity next to the internal surface, following H⁺ extrusion, favored ammonium deprotonation and dissociation from the transport system-ammonium complex. Parallel decreases in V _max and increases in K_m of the low-concentration saturable phase occurred for ammonium influx when ambient potassium was present and for potassium influx when ambient ammonium was present. The data support a mixed-type inhibition in each case. Simultaneous measurement of potassium and ammonium influx showed that they were highly negatively correlated at the lower concentrations, indicating that the extent to which influx of the inhibited ion was restricted was associated with influx of the inhibitor ion. Presence of ambient ammonium eliminated the second phase of potassium influx. In contrast, the presence of ambient potassium decreased the concentration at which the second phase of ammonium influx was initiated but did not restrict the rate.Paper no. 11131 of the Journal Series of the North Carolina Agricultural Research ServiceThe use of trade names in this publication does not imply endorsement by the North Carolina Agricultural Research Service of the products named, nor criticism of similar ones not mentioned     

Low Pressure and Ethylene in Lettuce Seed Germination

The extent and manner of ethylene involvement in germination of lettuce (Lactuca Sativa L. cv. Mesa 659) seed at a moderate temperature (20°C) were investigated. Inhibition of germination at low pressure of 150 mmHg in an oxygen flow-through system was alleviated to a marked extent by ethylene. Carbon dioxide was ineffective by itself but caused further alleviation of inhibition in presence of ethylene and oxygen. Other seed treatments which partially alleviated the inhibition caused by low pressure included soaking in 10μM of fusicoccin and a prior treatment with acetone. Of the two ethylene adsorbents used, Purafil was more effective in inhibiting germination in a closed container. Although the ethylene biosynthesis inhibitor, 8-hydroxyquinoline (1.0 mM). showed no effect on ethylene production, it markedly inhibited germination and the effect was partially reversed by ethylene and GA₃. An ethoxy analog of rhizobitoxine, on the other hand, had little or no effect on germination but strongly inhibited the ethylene production. Although no causal relation of ethylene to germination was established, the evidence presented here implicates ethylene, together with other gases, in the regulation of germination.     

Effects of Dormancy Regulating Chemicals on Innate and Salinity Induced Dormancy in the Invasive <Emphasis Type="Italic">Prosopis juliflora</Emphasis> (Sw.) DC. Shrub

The effect of different types and concentrations of dormancy regulating chemicals (DRCs) on innate and induced dormancy was evaluated under optimal germination conditions in the invasive Prosopis juliflora shrub. Lower concentrations of gibberellic acid (0.3 mM) and kinetin (0.05 mM) were more effective in enhancing germination % and rate at higher concentrations of NaCl, but the reverse was true for thiourea. None of the DRCs alleviated innate dormancy of P. juliflora. Germination % and rate decreased as salinity increased. Percent final germination of non-treated seeds was significantly reduced at 500 mM NaCl and virtually inhibited in 600 mM NaCl. Germination reduction in 500 mM NaCl was not alleviated by any of the DRCs, but inhibition induced at 600 mM NaCl was partially alleviated by all the DRCs. Gibberellic acid had a significantly greater effect than kinetin in alleviating germination inhibition. For restoration of saline soil through the use of P. juliflora, results suggest using DRCs, particularly gibberellic acid and thiourea, as a preseeding treatment can overcome the problem of reduced germination.     

Carbohydrate and nitrogen sources affect respectively in vitro germination of immature ovules and early seedling growth of Impatiens platypetala Lindl.

In vitro germination of 20-day old immature ovules of Impatiens platypetala Lindl. was inhibited at concentrations as low as 50 mM sucrose or mannitol and 100 mM glucose. Younger ovules (12, 14, and 16 days old) were similarly inhibited at 100 mM sucrose.Inorganic nitrogen concentration did not affect germination regardless of ovule age, but seedling fresh weight was significantly less and abnormal development of seedlings was significantly increased by total inorganic nitrogen concentrations higher or lower than 30 mM (at a ratio of 20: 10 mM NO₃ ^-: NH₄ ⁺) in the culture medium.     

The reversible inhibition of pollen germination of Nicotiana tabacum L.: an entry into a transformation system

Summary The hydrodynamics of mature pollen rehydration in Nicotiana tabacum was used to study reversible inhibition of pollen germination in vitro. Tobacco pollen was incubated for various times in media containing calcium, potassium and magnesium salts, boric acid, and exhibiting different osmotic pressures as a function of sucrose concentration. Total inhibition of germination with complete viability preservation was achieved for 56 h by keeping the grains in medium with 80% sucrose, since typical percentages of germination and pollen tube lengths were recovered after this treatment. These effects were considered as consequences of natural osmoregulation of rehydration/germination in mature pollen. The possibility of applying these findings to the incubation of pollen with Agrobacterium tumefaciens to develop a pollen transformation method is discussed.