Induction of Local and Systemic Resistance to Colletotrichum coccodes in Pepper Plants by dl -β-Amino-n-Butyric Acid

dl -β-amino- n -butyric acid (BABA) that was applied as a foliar spray or soil drench to pepper plants induced local and systemic resistance to a challenge infection with Colletotrichum coccodes . About 85 and 100% protections against the anthracnose were achieved by a relatively high concentration of BABA at 1000 μg/ml, which had no antifungal activity in vitro against C. coccodes . Protection was expressed as a reduction in the number and size of lesions. dl -α-amino- n -butyric acid (AABA) was not so effective as BABA, whereas dl -γ-amino- n -butyric acid (GABA) provided a little protection against anthracnose. At least 5 days were needed after BABA treatment as a soil drench in order to induce resistance in pepper plants. After BABA treatment as a soil drench, the plants remained protected over 15 days. Application of BABA to the lower leaves significantly protected the leaves above the treated leaves from C. coccodes infection, which suggested that systemic resistance to the anthracnose was induced in pepper plants by BABA. The leaves above the BABA-treated lower leaves were strongly protected by reduction of the number and size of lesions.     

Effect of dikegulac on growth and alkaloid production inCatharanthus roseus (L.) G. Don. (pink flowered)

Application of sodium-dikegulac reduced plant height with associated increase in branch and leaf number and root biomass inC. roseus (L.) G. DON. Chlorophyll content reduced significantly after first month of 100 and 250 μg/ml DK application. However, such reduction was replaced by significant rise after forth month in 250 μg/ml DK application and fifth month in 100 μg/ml DK application followed by appreciable decline only in 250 μg/ml DK treatment but 100 μg/ml DK maintained higher level till harvest. Total sugar content was significantly high during forth and fifth month stage of growth after DK application. Amino acid content was higher during third to fifth month in 100 μg/ml DK treatment and during third to forth month in 250 μg/ml DK treatment. Tryptophan, on the other hand showed higher content at the fifth month stage of growth after application of DK in both the concentrations. Leaf and root dry weight as well as total alkaloid content were highest in 100 μg/ml DK application. DK, therefore, appears to be a potential chemical for increasing biomass and alkaloid content inC. roseus.     

In vitro cytotoxicity of lipopolysaccharides for chinese hamster ovary cells

Abstract From our survey of various lipopolysaccharide (LPS) preparations, we demonstrated that three out of five commercial LPS preparations of Salmonella typhimurium were not cytotoxic for Chinese hamster ovary (CHO) cell monolayers at a concentration of 1000 μg/ml. One commercial LPS preparation produced cellular damage at a concentration of 1000 μg/ml and another at 400 μg/ml. Two S. typhimurium LPS preparations made in our laboratory were also cytotoxic at a concentration of 1000 μg/ml but not at lower concentrations. Cell-free sonic lysates of S. typhimurium TML R66 were cytotoxic when tested undiluted and up to a dilution of 1:20. Based on the 2-Keto-3-deoxyoctonate (KDO) content of all preparations, sonic lysateas were cytotoxic at KDO concentrations of 0.42 μg/ml while the KDO content of the most cytotoxic LPS preparation was 15.2 μg/ml. There was no apparent correlations between KDO content of the LPS preparations and cell detachment, leading to the conclusion that cell detachment activity of Salmonella cell lysates cannot be attributed to their LPS content.     

Angiogenesis and myogenesis as two facets of inflammatory post-ischemic tissue regeneration

Recently Hippophae rhamnoides has been reported to render chromatin compaction and significantly inhibit radiation induced DNA strand breaks. To investigate the mechanism of action of RH-3, a preparation of Hippophae rhamnoides, in this connection, present study was undertaken. Chromatin compaction induced by RH-3 (100 g/ml or more) was maximum at alkaline pH but was completely negated by acidic pH (< 6) or presence of free radical scavengers like glycerol, DMSO etc. In a concentration dependent manner, RH-3 inhibited the intercalation of ethidium ions from Et Br into calf thymus DNA and also increased the precipitation of DNA-protein cross-links (DPC) in thymocytes. Chromatin compaction caused by RH-3 treatment did not permit the separation of proteins from DNA even after treatment with 2 M NaCl solution. SDS-PAGE profiles also revealed that RH-3 in a dose dependent manner compacted the chromatin organization, induced DPC and inhibited the extraction of both histone and non-histone matrix proteins from chromatin maximally at 80 g/ml. More than 80 g/ml of RH-3, though extracted low molecular weight histones but did not separate non-histone proteins. The RH-3 mediated DPCs were resistant even to 1% SDS, 4 M NaCl and 3.8 M hydroxyl amine hydrochloride but were prone to both urea (8 M) and guanidine hydrochloride (6 M) indicating covalent bonding between DNA and proteins (serine/threonine). RH-3 in a concentration dependent manner induced superoxide anions and the phenomenon was dependent upon nature of medium, presence of metal ions and pH. RH-3 at concentrations up to 100 g/ml in presence of 50 M copper sulfate inflicted significant damage to extraneously added 2-deoxyribose molecules and maximum TBARS were formed at a concentration of 100 g/ml. Higher concentrations of RH-3 more than 100 g/ml quenched free radicals and inhibited 2-deoxyribose degradation. RH-3 also induced strand breaks in plasmid DNA at concentrations lower than 100 g/ml but completely inhibited at concentrations higher than 250 g/ml, indicating bimodal function. Strand breaks induced by lower concentrations of RH-3 (up to 100 g/ml) were inhibited by antioxidants like GSH, DFR etc. RH-3, in a concentration dependent mode also inhibited the relaxation of supercoiled plasmid DNA (PBR322) by topoisomerase I.Present study indicated that RH-3 caused compaction of reversible (< 100 g/ml) and irreversible (> 100 g/ml) nature which was related to the magnitude of DNA-protein cross-links formed. Maintenance of chromatin organization, induction of hypoxia, hydrogen atom donation, free radical scavenging and blocking of cell cycle at G2-M phase by interfering with topoisomerase I activity seem to contribute towards the radioprotective efficacy of RH-3.     

6-Methylpurine-induced inhibition of sclerotia morphogenesis in Sclerotium rolfsii and its reversal by adenosine

In liquid synthetic medium inoculated with Sclerotium rolfsii (SR), addition of 6-methylpurine (MP, 50g/ml) immediately after inoculation led to approximately 100% reduction in sclerotia production. Adenosine, and to a lesser extent guanosine, each at final concentration of 100g/ml significantly reduced inhibition of sclerotia formation by SR in presence of 50g/ml MP. Uridine and cytidine each at 100g/ml had no such effect. The inhibition of sclerotia morphogenesis could be prevented by addition of 800g/ml of adenosine together with 50g/ml MP. Reversal by adenosine of MP-induced inhibition of sclerotia development was concentration dependent.     

Determination of ergot alkaloids in feed by HPLC

A HPLC method for the determination of ergometrine, ergotamine, ergocristine, α-ergocryptine and ergocornine in cereals for animal feed and in mixed feed with high cereal content was developed. Samples were extracted under acidic conditions using a mixture of phosphoric acid and acetonitrile, the extract purified with solid phase extraction cartridges (strong cation exchange), and ergot alkaloids detected after gradient elution on a C18 column by HPLC with fluorescence detection. Detection and determination limits for each individual alkaloid were at 5 (μ/kg and 10 (μg/kg, respectively. With this method, high recovery (82–120%) and good reproducibility was achieved for wheat, rye and mixed feeds, at a sum of total determined alkaloids of < 500 (μg/kg. This method was used to analyse Bavarian feeds (n=124) over three years (2005–2007), and ergot alkaloids were detected in 91 % of the samples. The majority of positive samples had ergot alkaloid contents of < 250 μg/kg, the median alkaloid level was at 70 (μg/kg. The maximum sum of total determined alkaloids exceeded 1000 (μg/kg in wheat, triticale, rye, and mixed feeds, the highest result was obtained for mixed feed (4880 (μg/kg). Parts presented at the Feed Safety Conference, Namur, Belgium, Nov 27–28, 2007     

Antifeeding activity of limonoids from Khaya senegalensis (Meliaceae)

Abstract: Fifteen B,D-secolimonoids of mexicanolide, rearranged phragmalin, methyl angolensate and glycoside types have been isolated from ether and acetone extracts of the stem bark of Khaya senegalensis (Desr.). The antifeedant activity of the isolated compounds was assessed by conventional choice leaf disc method on the third-instar larvae of Spodoptera littoralis (Boisd.). Khayalactol, 1- O -acetylkhayanolide A, 2-hydroxyseneganolide, khayanolide A, khayanolide D and methyl angolensate displayed strong antifeedant activity at 1000  μ g/ml with antifeedant percentages of 83.8, 61.9, 60.1, 59.5, 57.1 and 55.7, respectively. 2-Hydroxyseneganolide and khayanolide D showed high activity at 500, 300 and 200  μ g/ml while 1- O -acetylkhayanolide A was the only compound that revealed antifeedant activity at a concentration as low as 100  μ g/ml. Antifeedant activity was dose-dependent in some of the isolated compounds. Correlation between antifeedant activity of the isolated compounds and chemical structure was discussed.     

Identification and Phytotoxicity of 3-methylthiopropanoic and Trans-3-methylthiopropenoic Acids Produced in Culture by Xanthomonas campestris pv. vitians

Two phytotoxic metabolites were isolated from culture filtrates of Xanthomonas campestris pv, vitians , the causal agent of lettuce leaf spots and headrot. The two compounds were identified as 3-methylthiopropanoic (1) and trans-3-methylthiopropenoic (2) acids by chemical and spectroscopic methods. Toxic effects of the two compounds on leaf tissues and protoplasts of lettuce and cabbage were investigated. Solutions of 1 and 2 induced chlorosis and necrosis on lettuce leaves at minimum concentrations of 300 and 50 μg/ml, respectively. Infiltration in cabbage leaves did not produce any symptoms. The LD₅₀ values for 1 and 2 against lettuce protoplasts were 15 and 16 μg/ml, respectively. Activity of the two metabolites against cabbage protoplasts was very low (LD₅₀ > 500 μg/ml).     

Tissue localization of β-glucosidase in rye, maize and wheat seedlings

The localization of β -glucosidase was determined at the tissue level in roots and shoots of rye, wheat and maize seedlings, using an immunohistochemical approach with antibodies directed against purified maize β -glucosidase as the primary antibody. In the roots, the β -glucosidase was found in the epidermis and the underlying cell layer. In the leaves, staining was seen in the epidermis (rye and wheat) and nearby vascular tissue (rye, wheat and maize). In all 3 species, β -glucosidase activity was highest in the coleoptile. Here the enzyme was restricted to the epidermis in wheat and to cells near the vascular tissue in maize, but was found in the whole tissue, except the vascular tissue, in rye. Maize, wheat and rye all contain hydroxamic acid glucosides and results are discussed in relation to a proposed role of β -glucosidase as part of a defense system releasing hydroxamic acid aglucone upon herbivore attack, pathogen penetration or aphid infestation.     

Assignment of the genes for human lysosomal acid lipases A and B to chromosomes 10 and 16

Summary This paper gives the results of studies on the effects of malathion on human lymphocytes stimulated by PHA, including cell survival, chromosomal aberration and nucleic acid content. Increasing malathion doses (10–70 g/ml) were introduced into cultures of human lymphocytes at different times relative to the time of PHA addition.At a concentration of 10 g/ml, malathion induced an increase in the RNA and DNA fractions in lymphocyte cultures. Higher malathion concentrations (50 and 70 g/ml), especially the dose of 70 g/ml, induced both a significant decrease in the content of RNA and DNA and reduced survival of cultured cells. The insecticide damaged the chromosome structure, but no correlation was revealed between the dose and the level of chromosome aberrations.     

Influence of Melatonin on the Rate of Rana pipiens Tadpole Metamorphosis In Vivo and Regression of Thyroxine-Treated Tail Tips In Vitro

Metamorphosis of Rana pipiens tadpoles may be retarded when the light phase of the light/dark (LD) cycle is shortened or when thyroxine (T₄) is given in the dark because melatonin peaks during the dark. Injection of premetamorphic tadpoles in spontaneous metamorphosis with melatonin (15 μg) retarded tail growth and hindlimb development on 18L:6D but had no significant effect on 6L:18D. During induced metamorphosis (30 μg/liter T₄), melatonin injections retarded tail resorption on 18L:6D and accelerated it on 6L:18D, but did not affect the hindlimb. When melatonin was injected during T₄ immersion at different times in the photophase on 18L:6D (L onset 0800 hr), tail regression was retarded by melatonin at 1430 or 2030 hr. At 0830 hr, shrinkage of tail length was accelerated whereas tail height was not affected. Tail tips in vitro induced to resorb by 0.2 μg/ml T₄ in Niu-Twitty solution regressed more slowly in the presence of melatonin (10 or 15 μg/ml) than with T₄ alone on both 6L:18D and 18L:6D. The findings implicate melatonin in LD cycle effects on tadpole metamorphic rate in vivo , show the importance of the time of melatonin injections, and indicate that melatonin antagonizes the metamorphic action of T₄ at the tissue level.     

Identification of a complete set of isogenic wheat/rye D-genome substitution lines by means of Giemsa C-banding

Summary A complete set of isogenic wheat/rye D-genome substitutions were produced by crossing an inbred line of spring rye Secale cereale L. cv. Prolific to a tetraploid wheat, the A-and B-genomes of which had previously been extracted from hexaploid wheat, Triticum aestivum L. em Thell. cv. Thatcher. After chromosome doubling, the derived hexaploid triticale (x Triticosecale Wittmack) was backcrossed to 6x Thatcher and selection for wheat/rye substitution lines was carried out in BCF₃ to BCF₆ families by using Giemsa C-banding. Five fertile disomic wheat/rye D-genome substitution lines were obtained and their chromosomal constitution was determined to be 1D/1R, 2D/2R, 7D/4R, 6D/6R, 7D/7R. The two remaining 3R and 5R substitutions are at the moment in a monosomic condition. Another 1D/7R substitution was detected but this plant was very weak and sterile, indicating that only substitutions between homoeologous chromosomes result in fertile, vigorous plants. Furthermore, many rye telocentrics as well as rye-rye and rye-wheat translocations were selected. Since all lines selected in this program share the same genetic background of Thatcher wheat, genetic heterogeneity is excluded. The material is very useful, therefore, for analyzing the effects of different rye chromosomes or chromosome segments in an otherwise homozygous background.Contribution No. 797     

The toxicity of a number of different bactericides to Clavibacter michiganense subsp. michiganense (Smith 1910) Jensen 1934 comb. nov. [basonym Corynebacterium michiganense pv. michiganense (AL)] and to the tomato plant, Lycopersicon esculentum

Twenty-seven proprietary products and pure chemicals were tested in vitro against cells of Clavibacter michiganense subsp. michiganense (Smith 1910) Jensen 1934 comb. nov. [basonym Corynebacterium michiganense pv. michiganense (AL)] (the cause of bacterial canker of tomato) and also for their phytotoxicity to tomato plants. The most bactericidal of these, with a minimum cidal concentration (MCC) range of > 10-< 100 μg/ml, were a phenolic product called Applied 3–78, two quaternary ammonium compounds (benzalkonium chloride and cetrimide), and a silver colloid compound. Of these, only Applied 3–78 was not phytotoxic at values of 10 μg/ml or less, although it was phytotoxic at 10000 μg/ml. Copper oxychloride and sodium hypochlorite were amongst the group with a middle range of bactericidal properties, their MCC range being from > 1000 to < 10000 μg/ml. They were phytotoxic at 1000 μg/ml or less. When organic matter, a dead yeast suspension, was added to Applied 3–78, Kohrsolin and Panacide, only the activity of Applied 3–78 was relatively unchanged. The MCC ranges were: Applied 3–78, >80–< 100 μg/ml; Kohrsolin, > 800-< 1000 μg/ml; and Panacide, > 1000 μg/ml. Phytotoxicity tests on 10 different tomato cultivars confirmed that Applied 3–78 was the least phytotoxic of these three products. Field trials on tomato crops showed that when Applied 3–78 was sprayed on the plants once, and Kohrsolin was either sprayed on or they were drenched with it once at 1000 μg/ml, no phytotoxicity symptoms developed.     

Influence of nitrogen on the behaviour of nickel in wheat

A glasshouse experiment was conducted to study the effect of Ni on the growth and nutrients concentration in wheat (Triticum aestivum Cv. WH 291) in the presence and absence of applied N as urea. Responses to N application were observed up to 120 g N g^–1 soil. No response to Ni was observed in the dry matter yield of wheat tops (leaves + stem) in the absence of applied N while in the presence of applied N, significant yield increases were obtained at 12.5g Ni g^–1 soil. Nickel was not toxic to wheat up to 50g Ni g^–1 soil in the presence of 120g N g^–1 soil. Nitrogen and Ni concentration in wheat tops and roots increased with increasing levels of applied N and Ni, respectively. Applied Ni had an antagonistic effect on N concentration. Similarly, N reduced the Ni concentration in the wheat tissues. Positive growth responses to Ni were associated with 22 and 15g Ni g^–1 in wheat tops, in the presence of applied N at 60 and 120g N g^–1 soil, while Ni toxicity was associated with 63, 92.5 and 112.5g Ni g^–1 in wheat tops, in the absence and presence of applied N at 60 and 120g N g^–1 soil, respectively.     

Olfactory responses of Epilachna dodecastigma (Coleoptera: Coccinellidae) to long-chain fatty acids from Momordica charantia leaves

Extraction, thin-layer chromatography and gas chromatography–mass spectrophotometry analyses revealed the presence of 12, 13, and 12 fatty acids in young, mature, and senescent leaves of Momordica charantia L., representing 87.30, 95.25, and 83.11 % of the total fatty acids, respectively. The proportion of saturated fatty acids was highest in senescent leaves (78.60 %) followed by young leaves (69.42 %) and mature leaves (48.92 %), with the balance accounted for by unsaturated fatty acids. Palmitic acid was the predominant saturated fatty acid in the three types of leaves, whereas alpha-linolenic acid was the predominant unsaturated fatty acid. The fatty acids from young, mature, and senescent leaves followed by the application of a synthetic mixture of fatty acids that was comparable to the natural fatty acids found in the three types of leaves, elicited the attraction of the female insect Epilachna dodecastigma (Coleoptera: Coccinellidae) at 50–200, 50–200, and 100–200 μg/ml concentrations, respectively, in a Y-shaped glass tube olfactometer bioassay. Individual synthetic fatty acids were also evaluated by the olfactometer bioassay at concentrations comparable to the proportions detected in the three types of leaves. Individual synthetic palmitic acid, stearic acid, oleic acid, linoleic acid, and alpha-linolenic acid at 58.24, 13.96, 29.40, 30.31, and 29.76 μg, respectively, attracted the insect. A synthetic blend of 79.13, 10.57, 29.40, 30.31, and 36.33 μg of palmitic, stearic, oleic, linoleic, and alpha-linolenic acids, respectively, which is the proportion present in a 200 μg/ml concentration of fatty acids of mature leaves, or of 116.49, 13.96, and 29.76 μg of palmitic, stearic and alpha-linolenic acids, respectively, which is the proportion present in a 200 μg/ml concentration of natural fatty acids of young leaves, served as attractants for E. dodecastigma.     

Isolation and some physiological properties of natural plant growth inhibitors

Using paper chromatography and conventional methods of isolation, natural growth inhibitors were isolated from green leaves of different plants (Brassica oleracea, Zea mays, Pisum sativum andSalix rubra). All isolated inhibitors were found to be phenolic compounds and the chemical structure of most of them was determined; only the final structure of theBrassica inhibitor has not yet been ascertained. 500 mg of natural inhibitor ofPisum sativum was isolated from 1500 g of leaves and was identified as quercetin-glucosil-p-coumarate (QGC), described earlier byFuruya, Galston andStowe (1961). The structure of the natural inhibitor ofZea mays (4 mg from 100 g of leaves) was identical with p-coumaric acid and the chemical nature of the plant growth inhibitor fromSalix rubra (700 mg from 1,5 kg of leaves and young bark) was that of 2-chalconaringenin-glucoside or isosalipurposide, described earlier byCharaux andRabaté (1931) andHarborne (1966). All isolated substances had inhibiting properties in the straight growth test of wheat coleoptile sections and decreased the growth of isolated stem sections prepared from plants—donors of inhibitors. Thus, maximum growth inhibition (LG max) was attained, if wheat coleoptile sections were incubated with:Brassica inhibitor in the concentration of 0·5 mg/ml, withPisum inhibitor (QGC) in the concentration of 16 mg/ml, withZea inhibitor (p-coumaric acid)—0·35 mg/ml and with Salix inhibitor (isosalipurposide) in the concentration of 0·5 mg/ml. In small concentrations no mentioned substances were able to enhance the growth as actively as indolic auxins (on 250–300%); only slight growth activation in biotests was sometimes observed for low concentrations. Inhibition in p-coumaric acid was much more active in a free form than in the bound form as an acyl-rest of QGC. As a rule, the wheat coleoptile test was much more sensitive (3–5 times) to the plant growth inhibitors, than tests prepared from tissue and organs of plants—donors. The retardation activity of plant growth inhibitors is not correlated with their molecular weight. Dormin (or±abscissin II) was also tested on wheat coleoptile sections. In neither of the applied concentrations (10-0·05 μg/l range) was dormin able to depress straight growth of wheat coleoptile sections, but even in a 1·7 μg/l concentration it inhibited the IAA-activated growth of sections. However, additional experiments showed that dormin in higher concentrations (40 μg/l and more was able even to depress endogenous straight growth of wheat coleoptise sections. The differences between the properties of natural phenolic growth inhibitors and dormin were discussed.     

The content and distribution of steryl ferulates in wheat produced in Japan

Oryzanol contained in rice bran is a complex mixture of steryl ferulates (SFs) with many identified health benefits. Recently, SF has been shown to exist in other cereals such as wheat, rye, and corn. In this study, SFs in several wheats produced in Japan were analyzed. For instance, SF content of whole wheat grain, Yumekaori (Japan) was 15.2 ± 1.4 mg-oryzanol-equivalent/100 g grain, while that of the imported one, 1CW (Canada) was 11.4 ± 1.3 mg-oryzanol-equivalent/100 g grain. The main SF components in the examined wheats were campesteryl ferulate, campestanyl ferulate, and sitostanyl ferulate. SF distribution in whole wheat grain was investigated using 14 fractions produced by a conventional test milling machine. SF was intensively accumulated in the four bran fractions (24 ? 95 mg-oryzanol-equivalent/100 g bran fraction). These results suggest that the wheat bran would be an important source of SF.     

Efficacy of Novel Antimicrobials Against Clinical Isolates of Opportunistic Amebas

ABSTRACT We examined the effects of the macrolide antimicrobial agent azithromycin and phenothiazine compounds against clinical isolates of Acanthamoeba spp. and Balamuthia mandrillaris , opportunistic pathogens of human beings and other animals. Acanthamoeba growth was inhibited in vitro at 1,5, and 10 μg/ml of azithromycin, but not the macrolides, erythromycin, and clarithromycin. In experiments attempting to simulate in vivo conditions, azithromycin protected monolayers of rat glioma cells from destruction by Acanthamoeba at a concentration of 0.1 μg/ml, and delayed destruction at concentrations of 0.001 and 0.01 μg/ml. We concluded that the minimal inhibitory concentration of azithromycin was 0.1 μg/ml. Our results, however, suggested that the drug was amebastatic but not amebicidal, since ameba growth eventually resumed after drug removal. The phenothiazines (chlorpromazine, chlorprothixene, and triflupromazine) inhibited Acanthamoeba growth by 70-90% at 5 and 10 μg/ml, but some of these compounds were toxic for rat glioma cells at 10 μg/ml. Azithromycin was not very effective against B. mandrillaris in an in vitro setting, but was amebastatic in tissue culture monolayers at concentrations of 0.1 μg/ml and higher. Balamuthia amebas showed in vitro sensitivity to phenothiazines. Ameba growth was inhibited 30-45% at 5 μg/ml in vitro, but completely at 5 μg/ml in the rat glioma model. In spite of their potential as antiamebic drugs in Balamuthia infections, toxicity of phenothiazines limits their use in clinical settings.     

Mechanisms of triple stress-mediated damage in stationary phase cells of Salmonella typhimurium exposed to succinate-acidified hypochlorite system at 5° C

Exposure for 20 min of stationary phase cells of Salmonella typhimurium to a combined triple stress system (TSS) treatment comprising hypochlorite derived 5 ppm free available chlorine in solution acidified with 1% succinate (pH 2·5) and at a chill shock temperature of 5°C resulted in symptoms of injury. Cells became sensitive to 40 μg/ml lysozyme, 50 μg/ml actinomycin D and 100 μg/ml ribonuclease B, to which control cells were resistant. Metabolic injury was indicated by reduction in colony forming ability of stressed cells on minimal salts glucose agar M9 medium. There was no detectable leakage loss of 260–280 nm-absorbing materials. This was also confirmed by assay of the cellular RNA material components. Loss of alkaline phosphatase activity was observed in the stressed cells.
The intensity of induced cellular damage as measured by lysozyme sensitivity was greatest in the cells exposed to the complete TSS, followed by those stressed in 1% succinate at 5°C, then 5 ppm chlorine at 5°C and the singular chill shock stress at 5°C, respectively. The magnitudes of cellular damage, however, were suggestive of synergistic interactions among the component stress factors of the TSS.
The findings obtained indicate impairment of the structural integrity and functional capabilities of the permeability barriers and the inactivation of certain periplasmic enzymes. The resultant cumulative cellular damage from the TSS exposure may therefore enhance greater sensitivity of treated cells to subsequent stress factors.