Potential of pure and mixed cultures of Cladosporium cladosporioides and Geotrichum candidum for application in bioremediation and detergent industry

The effect of ethoxylated oleyl–cetyl alcohol (Henkel, “Merima”, Serbia) on the growth and metabolic activity of Cladosporium cladosporioides, Geotrichum candidum and their mixed culture was in the focus of this paper. The cultures were grown in Czapek-Dox liquid nutrient medium with the addition of 0.5% pollutant and without it. The physico-chemical and biochemical changes of pH, the total biomass dry weight, the quantity of free and total organic acids, proteolytic activity and the quality of carbohydrates were evaluated from 4th to 19th day of fungal growth. The pollutant caused an inhibitory effect on biomass dry weight of C. cladosporioides and G. candidum for 10.36% and 4.65% respectively, and stimulatory effect on biomass of mixed culture for 3.80%. The pollutant had influence on the decrease in pH value of the media in the phase of culture growth, and pH changes were correlated with the amount of excreted total organic acids. The highest quantity of free and total organic acids was noted in media with pollutant of mixed culture and C. cladosporioides, respectively. The alkaline protease activities of C. cladosporioides, G. candidum and mixed culture were enhanced by addition of pollutant for 56.88%, 55.84% and 30.94% respectively. The obtained results indicate the potential of both pure and mixed cultures in mycoremediation environment contaminated by alcohol ethoxylated and detergent industry.     

Isolation of Elemental Sulfur as a Self-Growth-Inhibiting Substance Produced by Legionella pneumophila

The addition of HP-20 resin to a medium could enhance the growth of Legionella species. Elemental sulfur was isolated as a self-growth-inhibiting substance produced endogenously by Legionella pneumophila from methanol extracts of the resins used to culture the bacterium. Elemental sulfur shows strong growth-inhibiting activity toward all Legionella species tested.     

Choline acetyl transferase activity in chick embryo neuroretinas during development in ovo and in monolayer cultures

The specific activity of the enzyme choline acetyl transferase (CAT) in chick neuroretinas was investigated during in ovo development and in monolayer cultures. The enzyme activity was barely detectable on the 6th day of incubation but increased markedly between the 7th and 11th days. The activity increased sharply between the 15th and 17th days and then slowly until hatching. When cell suspensions from 6- to 7-day neuroretinas were cultured as monolayers, CAT specific activity increased rapidly. After 4–5 days in culture, the activity of the enzyme was identical to that found in the neuroretina on the 11th day of incubation. Cells from 9-day neuroretinas also differentiate in monolayer cultures, but with a more irregular pattern. These data show that cholinergic neurons from chick embryo neuroretina differentiate in monolayer cultures without a lag and at the same rate as in vivo.     

Azadirachtin production by hairy root cultivation of Azadirachta indica in a modified stirred tank reactor

Present investigation involves hairy root cultivation of Azadirachta indica in a modified stirred tank reactor under optimized culture conditions for maximum volumetric productivity of azadirachtin. The selected hairy root line (Az-35) was induced via Agrobacterium rhizogenes LBA 920-mediated transformation of A. indica leaf explants (Coimbatore variety, India). Liquid culture of the hairy roots was developed in a modified Murashige and Skoog medium (MM2). To further enhance the productivity of azadirachtin, selected growth regulators (1.0?mg/l IAA and 0.025?mg/l GA₃), permeabilizing agent (0.5?% v/v DNBP), a biotic elicitor (1?% v/v Curvularia (culture filtrate)) and an indirectly linked biosynthetic precursor (50?mg/l cholesterol) were added in the growth medium on 15th day of the hairy root cultivation period in shake flask. Highest azadirachtin production (113?mg/l) was obtained on 25th day of the growth cycle with a biomass of 21?g/l DW. Further, batch cultivation of hairy roots was carried out in a novel liquid-phase bioreactor configuration (modified stirred tank reactor with polyurethane foam as root support) to investigate the possible scale-up of the established A. indica hairy root culture. A biomass production of 15.2?g/l with azadirachtin accumulation in the hairy roots of 6.4?mg/g (97.28?mg/l) could be achieved after 25?days of the batch cultivation period, which was ~27 and ~14?% less biomass and azadirachtin concentration obtained respectively, in shake flasks. An overall volumetric productivity of 3.89?mg/(l?day) of azadirachtin was obtained in the bioreactor.     

Strain variability of <Emphasis Type="Italic">Irpex Lacteus</Emphasis> basidiomycetes in the synthesis of specific milk-clotting proteinases

The ability to synthesize milk-clotting (rennet) proteinases was studied in eight strains of Irpex Lacteus basidiomycetes. It was found that the studied I. lacteus strains are characterized by different enzyme activities in their culture liquid. For I. lacteus strains 2425, 2426, and 2427, the maximum milk-clotting activity was detected during the exponential growth phase on the 15th day of cultivation on glucose–peptone medium. These I. lacteus strains are the most prospective milk-clotting enzyme producers for further research and practical application. I. lacteus strains 2421, 2422, 2423, 2424, and 2428 showed lower values of the enzyme activity and require additional research to determine the optimal culture conditions.     

The time course of xylem differentiation and its relation to deoxyribonucleic Acid synthesis in cultured coleus stem segments

The relationship between DNA synthesis and wound xylem differentiation was investigated in cultured stem segments of Coleus blumei. The addition of 50 micrograms of indoleacetic acid per liter to the culture medium resulted in a 400 to 500% increase in the number of wound vessel members formed in 7 days. However, the time course of wound vessel member formation was similar in segments cultured in the presence and absence of auxin. In either case, no wound vessel members appeared before the 3rd day of culture, while the majority of wound vessel members appeared on the 4th and 5th days of culture. ³H-Thymidine incorporation into DNA was used to measure changes in the DNA synthetic activity of the tissues during the culture period. Comparatively little ³H-thymidine incorporation occurred during the 1st day of culture. Maximum ³H-thymidine incorporation was observed on the 2nd day of culture, 2 days before the peak period of xylem differentiation. The rate of incorporation of ³H-thymidine into DNA decreased with increasing time in culture after the 2nd day. Auxin at 50 micrograms per liter had no effect on the time course of ³H-thymidine incorporation, although somewhat more ³H-thymidine was incorporated into DNA throughout the culture period in the presence of auxin. The magnitude of this effect was small when compared to the effect of auxin on xylem differentiation. The antimetabolite 5-fluorodeoxyuridine was shown to block DNA synthesis in the cultured stem segments. When the tissues were isolated on media containing 10⁻⁶m 5-fluorodeoxyuridine, wound vessel member differentiation was inhibited by approximately 80%, in both the presence and absence of auxin. Thymidine at 10⁻⁵m completely overcame the 5-fluorodeoxyuridine inhibition of wound vessel member formation. 5-Fluorodeoxyuridine was effective in blocking xylogenesis only when this substance was supplied to the tissues during the early part of the culture period. 5-Fluorodeoxyuridine had no effect on xylem differentiation when it was applied after the 3rd day of culture.     

Studies on S-adenosylmethionine:protein-carboxyl methyltransferase in the hypothalamo-neurohypophysial complex in organ culture.

The level of protein methylase II (S-adenosylmethionine: protein-carboxyl-methyltransferase, EC.2.1.1.24) activity in the hypothalamo-neurohypophysial complex in organ culture was studied during the period of 21 days. 1. The endogenous enzyme activity, which is a measure of both enzyme and substrate protein levels, in hypothalamus is maximum at the 7th day of culture showing 100% increase, compared to the activity at 0 day. Exogenous enzyme activity in hypothalamus which is a measure of enzyme level only, did not show a peak at 7th day. Thus, this increase is a measure of enzyme level only, did not show a peak at 7th day. Thus, this increase of the activity indicates that newly synthesized neurophysin served as endogenous substrate protein. 2. Endogenous enzyme activity of cytosol fraction from anterior pituitary gland gradually increased during the culture period reaching 3-fold increase at 12th day of culture, while the exogenous activity remained unchanged. This specific increase of endogenous enzyme activity also indicates that $\text{in vivo}$ newly synthesized anterior pituitary peptide hormones serve as substrate.     

7-Hydroxytropolone produced and utilized as an iron-scavenger by <Emphasis Type="Italic">Pseudomonas donghuensis</Emphasis>

Pseudomonas donghuensis can excrete large quantities of iron chelating substances in iron-restricted environments. At least two kinds of iron-chelator can be found in the culture supernatant: fluorescent siderophores pyoverdins, and an ethyl acetate-extractable non-fluorescent substance. The non-fluorescent substance was the dominant contributor to the iron chelating activity of the culture supernatant of P. donghuensis. Electron ionization mass spectrometry, NMR spectroscopy, and IR spectroscopy identified the non-fluorescent iron-chelator as 7-hydroxytropolone. The stoichiometry of 7-hydroxytropolone ferric complex was determined to be 2:1 by the continuous variation method. The production of 7-hydroxytropolone was repressible by iron in the medium. Moreover, the inhibited growth of doubly siderophore-deficient strain of P. donghuensis under iron-limiting conditions could be partly restored by 7-hydroxytropolone. Thus, 7-hydroxytropolone was considered to play a previously undiscovered role as an iron-scavenger for P. donghuensis.     

Ethanolamine base exchange in astrocyte primary cultures: Localization and developmental studies

The enzymatic activities of ethanolamine base exchange (EBEE) and CDP-ethanolamine: 1,2-diacylglycerol ethanolamine phosphotransferase (EPT) were investigated during the growth of rat astrocyte primary cultures. From the 16th day, cells ceased to divide (2.0×10⁶ cells per culture dish); the total phospholipid (PL) content increased 1.5 fold between the 16th and 24th day (0.20 to 0.30 mol per mg protein) but the amount of ethanolamine phospholipid (28% of PL content) remained constant. Whereas the specific activity (pmol/ min × mg protein) of EPT reached a plateau at 16 days in culture and remained constant (400) thereafter, that of EBEE increased up to the 19th day (190) and decreased gradually to a basal level (75) at the 24th day. EBEE activity was not detected in plasma membranes isolated from 16, 19 and 24 days astrocyte cultures. Sub-cellular fractionation and determination of EBEE specific activities showed that (1) the 104×10³ g fraction (P4) was 4.8 and 8.8 fold enriched at the 16th day and 24th day respectively as compared to the whole cell homogenate (50 and 75). (2) the 7×10³ g (P2) and 17×10³ g (P3) fractions were 8.4 and 7.0 fold enriched respectively at the 19 day in culture. The percentages of the enzymatic activity in the different subcellular fractions were 30, 57.2 and 25.7 for P2 and 39.2, 2.6 and 39.8 for P4 at 16, 19 and 24 days in culture respectively. The activity remained constant in P3 (23%) and was negligible in P1 (6%). Ultrastructual studies revealed that P2 and P3 were enriched in mitochondria while P4 contained essentially microsomes. P4 was enriched in glucose-6-phosphatase activity (G-6-P microsomal marker) and P2 and P3, in monoaminooxidase (MAO) and succinate dehydrogenase (SDH) (mitochondrial markers); G-6-P, MAO and SDH in the different subcellular fractions remained constant from the 16th to the 24th day. These data indicate (1) that the rate and profile of EPT and EBEE activities differed during the differentiation of astrocyte culture; (2) that EBEE activity, except at the 19th day in culture, was mainly localized in a microsomal subcellular fraction; (3) that at the 19th day the optimal EBEE activity observed in whole cell homogenate correlates with an enrichment of this activity in an enriched mitochondrial subcellular fraction.     

Morphological development of sclerotia by <Emphasis Type="Italic">Sclerotinia sclerotiorum</Emphasis>: a view from light and scanning electron microscopy

Sclerotinia sclerotiorum is a worldwide pathogen with a broad host spectrum pathogenic to around 400 plant species. Sclerotia formed by S. sclerotiorum serve as resting structures that secure fungal survival in soil for prolonged periods in the absence of a host plant or may help to overcoming periods of unsuitable growth conditions. In the present study, the morphological development of sclerotia was examined by light and scanning electron microscopy of fungal microcultures. Observations from microscopy indicated that, during the first 4 days of culture, the sclerotial primordial originate by dichotomous branching of apical hyphae and from the 5th day mycelial clusters were also observed, indicating the initiation stage of sclerotia formation. From the 6th to the 8th day, sclerotia turned from white to dark color, and water drops (exudates) were observed on their surface. The process of sclerotia formation ended at the 9th day when they were easy to detach from the culture medium and had a black coloration. All the morphological processes involved in the formation of sclerotia by S. sclerotiorum were observed with both light and scanning electron microscopy.     

Novel L-amino acid oxidase with algicidal activity against toxic cyanobacterium Microcystis aeruginosa synthesized by a bacterium Aquimarina sp

A brownish yellow pigmented bacterial strain, designated antisso-27, was recently isolated from a water area of saltpan in Southern Taiwan. Phylogenetic analyses based on 16S rRNA gene sequences indicate that strain antisso-27 belongs the genus Aquimarina in the family Flavobacteriacea and its only closest neighbor is Aquimarina spongiae (96.6%). Based on screening for algicidal activity, strain antisso-27 exhibits potent activity against the toxic cyanobacterium Microcystis aeruginosa. Both the strain antisso-27 bacterial culture and its culture filtrate show algicidal activity against the toxic cyanobacterium, indicating that an algicidal substance is released from strain antisso-27. The algicidal activity of strain antisso-27 occurs during the late stationary phase of bacterial growth. Strain antisso-27 can synthesize an algicidal protein with a molecular mass of 190 kDa, and its isoelectric point is approximately 9.4. This study explores the nature of this algicidal protein such as l-amino acid oxidase with broad substrate specificity. The enzyme is most active with l-leucine, l-isoleucine, l-methionine and l-valine and the hydrogen peroxide generated by its catalysis mediates algicidal activity. This is the first report on an Aquimarina strain algicidal to the toxic M. aeruginosa and the algicidal activity is generated through its enzymatic activity of l-amino acid oxidase.     

The prolonged growth and survival of ovarian tissue of the promethea moth (Callosamia promethea) in vitro

1. The ovarian tissues from diapausing pupae of the promethea moth (Callosamia promethea) have survived and grown for 186 days under in vitro conditions. There was continual cell migration and multiplication for a period of 53 days, followed by a period of 47 days during which no cells migrated from the tissues. Between the 100th and 105th days after setting up the cultures, cell migration was resumed, and by the 111th day 250 cells were present in the medium. A few cell divisions were observed between the 126th and 136th days. After the tissues were subcultured on the 140th day, the explant culture continued to survive, but the cell culture died 3 days later. 2. The tissues were subcultured a total of 6 times during the 186 days. By the introduction of a piece of live tissue into the cell cultures, the growth and survival of the cells were increased from 8 days to about 20 days. 3. It is possible that the tissues had become adapted to the medium during their long survival, as the cells which migrated from them after 100 days showed considerably longer survival than those in earlier cultures.     

Production of flavonoids and polysaccharide by adding elicitor in different cellular cultivation processes of Glycyrrhiza uralensis Fisch

In this study, callus and cell suspension were induced from seedlings of licorice (G. uralensis). In addition, it was revealed that the appropriate concentration of sucrose could promote the callus growth and increase the content of polysaccharide. The methyl jasmonate (MJ) and phenylalanine (PHE) could enhance the callus growth and content of flavonoids for G. uralensis. For producing more flavonoids and polysaccharide, two-stage cultivation was performed. In the first step, 30 g L^?1 sucrose was fed into a 5-L balloon-type bubble bioreactor on 8th day of culture to enhance cell production and metabolite production. In a two-stage cultivation process, PHE (2 mM) and MJ (5 mg L^?1) were added into a 5-L balloon-type bubble bioreactor after 10 days of culture. Using a fed-batch cultivation strategy (30 g L^?1 sucrose was fed into a 5-L balloon-type bubble bioreactor on 8th day), polysaccharide production was enhanced to 1.19 g L^?1, which was 2.12-fold greater than that in batch cultivation. The flavonoids yield (55.42 mg L^?1) which was about 22 % higher than that in batch cultivation was obtained on 21st day. In a two-stage cultivation process, the polysaccharide content was increased by 1.14- and 2.12-fold compared with fed-batch cultivation and batch cultivation on 15th day. Meanwhile, total flavonoids yield (132.36 mg L^?1) on 15th day, was increased by 2.26- and 2.67-fold compared with fed-batch cultivation and batch cultivation. In conclusion, two-stage cultivation process combined with the sucrose and elicitor treatment could promote both the callus growth and the secondary metabolites accumulation.     

Activities of Ribulose Bisphosphate Carboxylase and Phosphoenolpyruvate Carboxylase and C-Bicarbonate Fixation during in Vitro Culture of Pinus radiata Cotyledons

The activities of ribulose bisphosphate carboxylase (RuBPC) and phosphoenolpyruvate carboxylase (PEPC), as indicators of autotrophic and nonautotrophic CO₂ fixation, were measured in excised cotyledons of Pinus radiata D. Don cultured for 21 days under shoot-forming (SF) and nonshoot-forming (NSF) conditions. The activity of RuBPC was found to increase in both SF and NSF cultures during the initial 5 days of culture. However, it leveled off from day 5 to day 10 and subsequently began to decrease until the end of the culture period under the SF conditions. In contrast, in the NSF cultures, RuBPC activity increased until day 15, when it was twofold higher than the maximum activity found in the SF cultures. An increase in PEPC activity of about 2.5 times the level of activity in freshly excised cotyledons was observed during the initial 5 days of culture under the SF conditions. PEPC activity began to decline after day 5 until it reached the level of activity seen in NSF cotyledons by day 15. In contrast, the activity of PEPC did not show any significant increase during the initial 10 days of culture under the NSF conditions. The K_m (phosphoenolpyruvate) of PEPC from SF cotyledons was about 35% higher than that of NSF cotyledons. Cotyledons from two culture periods (days 5 and 15) were incubated for 15 seconds with NaH¹⁴CO₃. The label in the malate and asparatate fractions as a percentage of total ¹⁴C incorporation was 3 times higher in the SF cotyledons than in the NSF cotyledons. A higher incorporation of ¹⁴C into products of photosynthesis under the NSF conditions was also observed.     

Studies on sex-organ development. Effect of hormones on ornithine decarboxylase activity in the developing chick ovary

The response of ornithine decarboxylase activity to hormones in the embryonic left ovary was measured throughout the stages of development. During the early stage of ovarian development (9th day of incubation), the ornithine decarboxylase activity (in terms of pmol CO₂/30min per mg of protein) was high (766); it decreased from the 10th to the 12th day (575–239), increased slightly from the 13th to the 15th day (306) and finally fell to a low value (192–20) from the 18th day of development to birth. Administration of an optimal dose of oestrogen to the 9–10-day embryo stimulated the ovarian ornithine decarboxylase activity by 48–53%. If the same dose of oestrogen was administered to the 15–18-day embryo, the ovarian enzyme activity was suppressed by 32–43%. This biphasic response to oestrogen for enzyme induction is characteristic of the developing ovary and is not observed in other genital organs of the chick. In the early developmental stage (9–10th day) testosterone has no effect on ovarian ornithine decarboxylase activity, but in the late stage testosterone inhibits the activity by 41%. Organ culture techniques have been used to test the ovarian response to lutropin (luteinizing hormone). Lutropin stimulated ornithine decarboxylase activity by approx. 99–155% in the ovary of the early embryonic stage (10–13th day), and by 175–200% in the ovary of the late embryonic stage (15–18th day). The alteration in enzyme activity in the ovary as assayed in vitro during development is not due to the effect of the size of the endogenous ornithine pool. The relationship of ornithine decarboxylase activity to the morphological and biochemical changes in the developing ovary is discussed.     

CYCLIC-NUCLEOTIDE PHOSPHODIESTERASE : An Early Defect in Inherited Retinal Degeneration of C3H Mice

Cyclic nucleotides have been implicated in the differentiation and function of the vertebrate retina. In the normal retina of DBA mice, the specific activity of cyclic-nucleotide phosphodiesterase (PDE), with cyclic-AMP as the substrate (cAMP-PDE), increases eightfold between the 6th and 20th postnatal day. Kinetic analysis of retinae from newborn mice reveals a PDE with a single Michaelis constant (K_m) value for cyclic-AMP (low K_m-PDE). After the 6th postnatal day, a second PDE with a high K_m for cyclic-AMP (high K_m-PDE) can be demonstrated. The appearance and increasing activity of the high K_m-PDE coincides with the differentiation and growth of photoreceptor outer segments. Additionally, the high K_m-PDE is shown by microchemical techniques to be concentrated in the photoreceptor cell layer and the low K_m-PDE within the inner layers of the normal retina. In C3H mice afflicted with an inherited degeneration of the photoreceptor layer, the postnatal increase in the specific activity of cAMP-PDE is substantially lower than in the normal retina. The postnatal increase in the specific activity of cAMP-PDE in two regions of the brain of C3H mice is the same as in the normal strain. A deficiency in high K_m-PDE activity in the C3H retina is evident on the 7th postnatal day, when the activity of low K_m-PDE, photoreceptor morphology, and rhodopsin content of these retina are essentially normal. In the adult C3H retina, the PDE activity with cyclic-GMP and cyclic-UMP as substrates is significantly below that of the normal retina. These data indicate that an alteration in cyclic-AMP metabolism occurs before photoreceptor cell degeneration in the retinae of C3H mice.     

Fungal interaction between Trichoderma spp. and Pleurotus ostreatus on the enriched solid media with licorice Glycyrrhiza glabra root extract

The aim of this study is to investigate the antifungal activity of mycelia of Pleurotus ostreatus (white oyster mushroom) and licorice (Glycyrrhiza glabra) root extract against three undesirable fungi. They are Trichoderma spp., Trichoderma harzianum I and Trichoderma harzianum II which was tested on PSA (potato sucrose agar) medium enriched with licorice (Glycyrrhiza glabra) root extract (PSA-G media) using three concentrations (0.05, 0.10 and 0.20 g/L) in alone and dual cultures. Trichoderma spp. showed less mycelial growth of 8.75, 9.17 and 9.50 mm/day on PSA-G0.05, PSA-G0.1 and PSA-G0.2 respectively compared with 10.25 mm/day on fresh PSA (control) in dual culture. The best mycelial growth inhibition was recorded on PSA-G0.2 (14.97%) by T. harzianum II in alone culture opposite 63.72% in dual ones. The lower mycelial growth rate of T. harzianum I was 17.75 mm/day on PSA-G0.1 (0.10 g/L). In dual culture, overgrowth time of T. harzianum I had 5 days compared as approx. 6 days in alone culture. Generally, when the concentration of licorice extract increased, the mycelial growth rate of the undesirable fungi decreased. Also, all PSA-G media, especially PSA-G0.2, indicated low growth averages compared with the control (fresh PSA) against the pathogen while this concentration encourages growth of oyster mushroom. Also, this concentration reduced the density of sporulation of green molds; therefore, this concentration can be applied to reduce influence this pathogen in cultivation farm.     

The induction of tyrosine aminotransferase activity and its use as an indirect assay for endotoxin in mice infected with Plasmodium vinckei petteri

Gauci R., Bennett D., Clark I. A. and Bryant C. 1982. The induction of tyrosine aminotransferase activity and its use as an indirect assay for endotoxin in mice infected with Plasmodium vinckei petteri. International Journal for Parasitology12: 279–284. It has been suggested that the malaria parasite contains an endotoxin-like substance which, by activating the reticuloendothelial system, causes much of the pathology of malaria when it is released into the host bloodstream during schizogony. In this study, an in vivo assay was developed, based on the determination of hepatic tyrosine aminotransferase activity in infected mice, to measure substances which act like endotoxin. Tyrosine aminotransferase is important in gluconeogenesis and is induced by endotoxin. Mice infected with Plasmodium vinckei petteri become sensitised to bacterial endotoxin as small amounts of endotoxin, without effect in uninfected mice, elevate tyrosine aminotransferase activity. The increase in sensitivity is gradual and progressive and is detectable by day 2 of the 9 day infection. Tyrosine aminotransferase activity is first lowered and then raised markedly during the course of the disease. A cell-free preparation of malaria parasites increased tyrosine aminotransferase activity when injected into mice sensitised with Coxiella antigen. These results are consistent with the hypothesis that parasitised red cells contain an endotoxin-like substance which directly or indirectly may be responsible for producing some of the symptoms of malaria in mice.     

pH-, Lactic Acid-, and Non-Lactic Acid-Dependent Activities of Probiotic Lactobacilli against Salmonella enterica Serovar Typhimurium

The mechanism(s) underlying the antibacterial activity of probiotic Lactobacillus strains appears to be multifactorial and includes lowering of the pH and the production of lactic acid and of antibacterial compounds, including bacteriocins and nonbacteriocin, non-lactic acid molecules. Addition of Dulbecco's modified Eagle's minimum essential medium to the incubating medium delays the killing activity of lactic acid. We found that the probiotic strains Lactobacillus johnsonii La1, Lactobacillus rhamnosus GG, Lactobacillus casei Shirota YIT9029, L. casei DN-114 001, and L. rhamnosus GR1 induced a dramatic decrease in the viability of Salmonella enterica serovar Typhimurium SL1344 mainly attributable to non-lactic acid molecule(s) present in the cell-free culture supernatant (CFCS). These molecules were more active against serovar Typhimurium SL1344 in the exponential growth phase than in the stationary growth phase. We also showed that the production of the non-lactic acid substance(s) responsible for the killing activity was dependent on growth temperature and that both unstable and stable substances with killing activity were present in the CFCSs. We found that the complete inhibition of serovar Typhimurium SL1344 growth results from a pH-lowering effect.     

Antibiofilm activity of coconut (Cocos nucifera Linn.) husk fibre extract

In this study, antibiofilm activity of coconut husk extract (CHE) was tested by various assays in the laboratory. The effects of CHE on extracellular polymeric substance (EPS) production, hydrophobicity and adhesion ability of Pseudomonas sp., Alteromonas sp. and Gallionella sp. and the antimicrobial activity of the extract against these bacteria were assessed. CHE was found to possess antibacterial activity against all the bacterial strains and affected the EPS production. The CHE affected the growth of the biofilm-forming bacteria in a culture medium. The hydrophobicity of the bacterial cells was also changed due to the CHE treatment. The active compound of the CHE was characterised by thin-layer chromatography (TLC), high performance liquid chromatography (HPLC) and fourier transform infrared (FT-IR) analysis. HPLC spectrum showed a single peak and the FT-IR spectrum indicated the presence of an OH-group-containing compound in the extract. In conclusion the CHE could be used as a source for the isolation of antifouling compounds.