Enhanced production of insecticidal prodigiosin from Serratia marcescens TKU011 in media containing squid pen

Using fishery-processing wastes of squid pen powder (SPP) as the sole carbon and nitrogen (C/N) source, Serratia marcescens TKU011 produced prodigiosin. The culture was incubated in 50 mL of medium in an Erlenmeyer flask (250 mL) containing 1.5% SPP at 30 °C for 1 day and then changed to 25 °C for 2 more days. The culture broth had high prodigiosin (0.978 mg/mL). S. marcescens TKU011 grown under illumination conditions in a shaking culture exhibited higher prodigiosin production than when grown under dark conditions contrary to previous reports. The culture supernatant reduced surface tension of water, and the surfactant activity increased when prodigiosin production increased. In this study, the fishery-processing waste, squid pen, was used to produce prodigiosin at greater quantities than reported in other studies, and we found that the prodigiosin had a novel property of insecticidal activity. This method has the potential for developing mass production of prodigiosin.     

Identification and production of a novel natural pigment, cordycepoid A, from Cordyceps bifusispora

A novel yellow pigment, cordycepoid A, was isolated and identified from the entomogenous fungi Cordyceps bifusispora. Cordycepoid A exhibited no significant toxicity against Chinese hamster ovary (CHO) cells and mice, and showed high stability against food addictives, metal ions and heat. A liquid/solid double-phase cultural process for the production of the pigment was optimized as follows: 3 days aged liquid seed, 7.5 % inoculums, incubation temperature at 25 °C, 10 days of solid culture, and the last 5 days exposed to 200 Lx scattered light. The liquid seed medium and the solid culture medium were also optimized. Ethanol was selected as extracting solvent for its scale-up production. The optimal extracting conditions were determined as liquid/solid ratio at 20:1, extracting temperature at 40 °C, ultrasonic power at 400 W, and extracting time of 40 min.     

Purification and characterization of solvent stable,alkaline protease from Bacillus firmus CAS 7 by microbial conversion of marine wastes and molecular mechanism underlying solvent stability

A marine bacterium Bacillus firmus CAS 7 produced protease in the medium supplemented with 3:1 shrimp and crab shell powder at 55 °C and was purified with the specific activity of 473.4 U/mg. The purified protease was highly stable up to 70 °C, pH 11.0 and 30% NaCl. The protease purified was quite stable in the presence of anionic and non-ionic surfactants and organic solvents. The molecular dynamics simulation confirmed that the competition between organic solvent and water for the enzyme surface was comparatively higher in water–miscible organic solvent which is responsible for organic solvent stability. The purified protease from B. firmus CAS 7 could be greatly useful to develop industrial processes performed under harsh conditions or with denaturants and organic solvents. The protease production by microbial conversion of marine wastes suggested its potential utilization to generate high value-added products.     

Overexpression in a non-native halophilic host and biotechnological potential of NAD<Superscript>+</Superscript>-dependent glutamate dehydrogenase from <Emphasis Type="Italic">Halobacterium salinarum</Emphasis> strain NRC-36014

Enzymes produced by halophilic archaea are generally heat resistant and organic solvent tolerant, and accordingly important for biocatalytic applications in ‘green chemistry’, frequently requiring a low-water environment. NAD⁺-dependent glutamate dehydrogenase from an extremely halophilic archaeon Halobacterium salinarum strain NRC-36014 was selected to explore the biotechnological potential of this enzyme and genetically engineered derivatives. Over-expression in a halophilic host Haloferax volcanii provided a soluble, active recombinant enzyme, not achievable in mesophilic Escherichia coli, and an efficient purification procedure was developed. pH and salt dependence, thermostability, organic solvent stability and kinetic parameters were explored. The enzyme is active up to 90 °C and fully stable up to 70 °C. It shows good tolerance of various miscible organic solvents. High concentrations of salt may be substituted with 30 % DMSO or betaine with good stability and activity. The robustness of this enzyme under a wide range of conditions offers a promising scaffold for protein engineering.     

Life cycle,physiology, ecology and red tide occurrences of the fish-killing raphidophyte Chattonella

The marine fish-killing raphidophytes of the genus Chattonella currently consist of five species, i.e. C. antiqua, C. marina, C. minima, C. ovata and C. subsalasa. The distribution of Chattonella species was confirmed in tropical, subtropical and temperate regions in the world accompanying mass mortalities of fishes in nature and in aquaculture. The fish-killing mechanisms are still unclear, but suffocation is the ultimate cause of fish death. Increasing evidence is pointing towards the generation of reactive oxygen species (ROS, e.g. superoxide), which are responsible for the gill tissue injury and mucus production that leads to death of fishes. A taxonomic revision was proposed based on morphology and genetic diversity that Chattonella antiqua and Chattonella ovata should be varieties of Chattonella marina possessing nomenclatural priority. Optimum temperatures for growth are 25 °C for C. antiqua and C. marina, 25–30 °C for C. ovata and 20–30 °C for Chattonella subsalsa. Adequate ranges of salinity for growth were about 20–30 for Chattonella species. Chattonella cells generally divide once a day. Laboratory culture experiments with artificial synthetic medium demonstrated that C. antiqua, C. marina and C. ovata used only Fe chelated with EDTA for growth, although tested diatoms and dinoflagellates used rather many kinds of chelated Fe. A suitable concentration of humic acid supplied with iron also had enhancing effects on the growth of C. antiqua. Diel vertical migration was observed in Chattonella, and the cells reached 7.5 m deep at night in the case of C. antiqua demonstrated by a mesocosm experiment in the Seto Inland Sea. Chattonella species have diplontic life history and have haploid cyst stage in their life cycle. Encystment was observed through formation of pre-encystment small cells after the depletion of nitrogen, and the small cells sink to the sea bottom to complete cyst formation by attachment to the solid surface such as diatom frustules and sand grains. Newly formed cysts are in the state of spontaneous dormancy and they need cold temperature period of four months or longer for maturation (acquisition of germination ability). Cysts germinate in early summer and resultant vegetative cells play an important role as seed populations in blooming in the summer season. However, relatively small part of cyst populations actually germinate from bottom sediments, and success of red tide formation is dependent on the growth in water columns. Since red tides of Chattonella were observed when diatoms were scarce in seawater, diatoms appear to have a key for the predominance of Chattonella in water columns. Diatom resting stages in sediments need light for germination/rejuvenation, whereas Chattonella cysts can germinate even in the dark, implying the selective germination of Chattonella cysts at the sea bottom under calm oceanographic conditions which contribute to bloom formation of Chattonella. As a mechanism of red tide occurrences of Chattonella in coastal sea, “diatom resting hypothesis” was presented. Biological control using diatoms is proposed through the germination/rejuvenation of resting stages suspending from bottom sediments to euphotic layer by sediment perturbation with submarine tractors or fishing trawling gears. Since diatoms have much higher growth rates, and newly joined diatom vegetative cells grow faster and prevent occurrence of Chattonella red tides as a result. As another prevention strategy for Chattonella red tides, algicidal bacteria inhabiting in seaweed beds and seagrass beds are presented. Co-culture of fish and seaweeds in aquaculture areas, and the developments of seaweed- and seagrass-beds would be practical and ultimately environment-friendly strategies for the prevention of harmful red tides of Chattonella by virtue of natural algicidal bacteria supplied from seaweeds and leaves of seagrass.     

Adsorptive recovery and purification of prodigiosin from methanol/water solutions of Serratia marcescens fermentation broth

The use of macroporous polymeric adsorption resins for the recovery and purification of prodigiosin from fermentation broth of Serratia marcescens SMDR was systematically studied, in which the broth was pretreated by coagulation with alum and the resulting precipitate was leached by methanol/water solution. Of the seven resins tested, Diaion HP-20 resin was selected considering the adsorption and desorption abilities for prodigiosin at the same time. The optimal compositions of liquid phases for adsorption and desorption were also examined. Batch experiments were performed at 15 ～ 35°C by varying initial prodigiosin concentration in solution (0.05 ～ 0.5 mmol/L), in which molar fraction of each component in the solution was kept constant. The Freundlich and Langmuir equations were used to describe adsorption isotherms and the related thermodynamic functions were also determined. Fixed-bed experiments were finally conducted to obtain the breakthrough characteristics for the adsorption and desorption of prodigiosin. Under optimized conditions, a purification factor of prodigiosin of 11.4 could be obtained from the pretreated broth after one adsorption-desorption run in fixed bed. The present results had demonstrated the promising potential of HP-20 resins for the recovery and purification of prodigiosin from methanol/water solution of Serratia marcescens fermentation broth.     

Isolation and algicidal characterization of <Emphasis Type="Italic">Bowmanella denitrificans</Emphasis> S088 against <Emphasis Type="Italic">Chlorella vulgaris</Emphasis>

One strain of algicidal bacterium, named as S088, was isolated from the intestine of healthy sea cucumbers (Stichopus horrens) in the South China Sea. Based on the analysis of its biochemical characteristics and 16S rDNA gene sequence, S088 was identified as Bowmanella denitrificans. Importantly, the algicidal activity of S088 on Chlorella vulgaris was characterized in this study. The initial densities of bacterial and algal cell showed strong influence on the removal rates of chlorophyll a. When the strain S088 was cultured under a complete darkness condition at 30 °C, its algicidal activity reached the highest level. Furthermore, it was found that the filtered supernatant from bacterial cultures had full algicidal activity, suggesting that the secreted compounds from S088 are involved in the observed algicidal action of S088. Moreover, the algicidal compounds were heat tolerant and had no cytotoxicity against fish cells, indicating that S088 would have a promising application as a safe probiotics for S. horrens. Finally, this is the first report about the algicidal activities in B. denitrificans.     

Relationships between dynamics of red tide-causing raphidophycean flagellates and algicidal micro-organisms in the coastal sea of Japan

Temporal fluctuations of algicidal micro-organisms against the red tide causing raphidophycean flagellates Chattonella antiqua (Hada) Ono and Heterosigma akashiwo (Hada) Hada ex Hara et Chihara were investigated using the microplate most probable number (MPN) method in northern Hiroshima Bay and Harima-Nada, the Seto Inland Sea, in 1992 and 1993. In Har-ima-Nada, both flagellates appeared at low levels (< 1 cell mL^?1), and killer micro-organisms against the two flagellates (C-killer for C. antiqua and H-killer for H. akashiwo) also appeared at low densities (< 2 mL^?1). In northern Hiroshima Bay, C. antiqua cells were scarce (< 1 cell mL^?1), and C-killers occurred at a low level (≤ 3.4 mL^?1). Conversely, red tides of H. akashiwo occurred there in June of both years. The dynamics of H-killers revealed a close relationship with that of H. akashiwo populations. H-killers followed the increase of H. akashiwo cells, reached a maximum level after the beginning of decline of H. akashiwo, maintained a high level for at least 1 week after the crash of bloom, and then decreased. C-killers consistently remained at low densities during the period of H. akashiwo red tides in both 1992 and 1993. Hence, algicidal micro-organisms specifically associated with the occurrence and crash of H. akashiwo red tides, and presumably contributed to the rapid termination of the red tides in the coastal seas such as northern Hiroshima Bay.     

Algicidal Activity of Thiazolidinedione Derivatives Against Harmful Algal Blooming Species

Thiazolidinedione (TD) derivatives exhibit algicidal activity against harmful algal blooming species such as Chattonella marina, Heterosigma akashiwo, and Cochlodinium polykrikoides, as reported previously. In this study, the efficacies and selectivities of TD derivatives were tested by analyzing the structure–activity relationships of various TD derivatives. To investigate structure–activity relationships for growth inhibition of harmful algae, we added a methylene group between the cyclohexyl ring and oxygen of 5-(3-chloro-4-hydroxybenzylidene)-TD, which decreased the inhibitory potency of compound 17. Interestingly, another addition of a methylene group significantly increased the inhibitory potency against C. polykrikoides. The addition of 1 μM compound 17 resulted in the cell rupture of harmful algae after less than 10 h incubation at 20 °C. Compound 17 was applied to both harmful and non-harmful algae and showed a drastic reduction in the efficiency of photosystem II, resulting in reduced photosynthetic oxygen evolution. Compound 17 at a 5 μM concentration destroyed all of the harmful algae, while algicidal activity against non-harmful algae did not exceed 30% of the control within the concentration range tested. In contrast, a herbicide, 3-(3,4-dichlorophenyl)-1,1-dimethylurea, tested at a 5 μM concentration, exhibited 40–70% algicidal activity relative to that of the control against both harmful and non-harmful algae. Compound 17 is a promising lead compound for the development of algicides to control harmful algal blooming species.     

放线菌L74溶藻物质的分离及其溶藻特性

为了得到溶藻物质并进行溶藻特性的研究, 采用离心、乙醇沉淀和有机溶剂萃取的方法从发酵液中粗提得到溶藻物质, 再通过硅胶吸附柱层析和透析进行精制, 并采用试管试验法对其进行分析。此外研究了溶藻物质的pH稳定性、热稳定性以及对藻类抗氧化酶系统的影响。该菌株的溶藻物质具有较大极性, 且分子量小于3 kD; 经化学法鉴定, 基本确定为糖苷类物质、内酯类物质和萜类物质中的一种或几种的组合; 具酸碱稳定性, 但对热敏感, 随着处理温度的升高, 溶藻效果逐渐下降, 当温度超过90 °C处理1 h后, 活性几乎全部丧失;     

Extraction of sulfated polysaccharides by autohydrolysis of brown seaweed Fucus vesiculosus

The extraction of sulfated polysaccharides (fucoidan) by autohydrolysis (AH) of brown seaweed Fucus vesiculosus was studied. Experimental assays were performed under different conditions of temperature (160 to 200°C) and reaction time (10 to 30 min) according to a 2² central composite design, and the conditions able to maximize the fucoidan yield were selected. The alga degradation and the total sugar yield in the liquor after AH were also determined to each experimental condition. The highest fucoidan yield (～16.5% w/w) was obtained when the AH process was performed at 180°C for 20 min. This product was characterized by high-performance liquid chromatography, infrared analysis spectroscopy, and thermal gravimetric analyses, which verified the presence of fucose and galactose as main components (70:30% mol ratio, in average) and an SO₃ content higher than 20%. AH process under optimum reaction conditions was an effective method to recover fucoidan from F. vesiculosus. The use of this technology brings also important advantages from economical and environmental viewpoints since it does not require the use of chemical solvent and generates less waste when compared to conventional extraction procedures.     

Effect of extraction temperature on the diffusion coefficient of polysaccharides from Spirulina and the optimal separation method

The extraction temperature had a significant impact on the concentration of polysaccharides derived from solid-liquid extraction of Spirulina. The polysaccharide concentration was significantly higher when the extraction was performed at 90°C than when it was performed at 80, 70, and 50°C. This result is related to the diffusion coefficients of the polysaccharides, which increased from 1.07 × 10^?12 at 50°C to 3.02 × 10^?12 m²/sec at 90°C. Using the Arrhenius equation, the pre-exponential factor (D ₀ ) and the activation energy (E _a ) for Spirulina polysaccharide extraction were calculated as 7.958 × 10^?9 m²/sec and 24.0 kJ/mol, respectively. Among the methods used for the separation of Spirulina polysaccharides, cetyltrimethylammonium bromide (CTAB, method I) and organic solvent (ethanol, in methods II and III) provided similar yields of polysaccharides. However, the separation of polysaccharides using an ultrafiltration (UF) process (method III) and ethanol precipitation was superior to separation via CTAB or vacuum rotary evaporation (method II). The use of a membrane with a molecular weight cut-off (MWCO) of 30 kDa and an area of 0.01 m² at a feed pressure of 103 kPa with a mean permeate flux of 39.3 L/m²/h and a retention rate of 95% was optimal for the UF process. The addition of two volumes (v/v) of ethanol, which gave a total polysaccharide content of approximately 4% dry weight, was found to be most suitable for polysaccharide precipitation. The results of a Sepharose 6B column separation showed that the molecular weights of the polysaccharides in fractions I and II were 212 and 12.6 kDa, respectively.     

A novel medium for the enhanced cell growth and production of prodigiosin from <Emphasis Type="Italic">Serratia marcescens</Emphasis> isolated from soil

Background

Prodigiosin produced by Serratia marcescens is a promising drug owing to its reported characteristics of having antifungal, immunosuppressive and antiproliferative activity. From an industrial point of view the necessity to obtain a suitable medium to simultaneously enhance the growth of Serratia marcescens and the pigment production was the aim of this work. The usage of individual fatty acid as substrate in industries would be cost-effective in the long run and this paved the way for us to try the effect of different fatty acid-containing seeds and oils of peanut, sesame and coconut as source of substrate.

Results

The addition of sugars only showed slight enhancement of prodigiosin production in nutrient broth but not in fatty acid containing seed medium. The powdered peanut broth had supported better growth of Serratia marcescens and higher yield of prodigiosin when compared with the existing nutrient broth and peptone glycerol broth. A block in prodigiosin production was seen above 30°C in nutrient broth, but the fatty acid seed medium used by us supported prodigiosin production upto 42°C though the yields were lower than what was obtained at 28°C. From the results, the fatty acid form of carbon source has a role to play in enhanced cell growth and prodigiosin production.

Conclusion

We conclude by reporting that the powdered and sieved peanut seed of different quality grades were consistent in yielding a fourty fold increase in prodigiosin production over the existing media. A literature survey on the composition of the different media components in nutrient broth, peptone glycerol broth and the fatty acid containing seeds and oils enabled us to propose that the saturated form of fatty acid has a role to play in enhanced cell growth and prodigiosin production. This work has also enabled us to report that the temperature related block of prodigiosin biosynthesis varies with different media and the powdered peanut broth supports prodigiosin production at higher temperatures. The medium suggested in this work is best suitable from an industrial point of view in being economically feasible, in terms of the higher prodigiosin yield and the extraction of prodigiosin described in this paper is simple with minimal wastage.

     

Characterization of a cold-adapted and salt-tolerant esterase from a psychrotrophic bacterium Psychrobacter pacificensis

An esterase gene, est10, was identified from the genomic library of a deep-sea psychrotrophic bacterium Psychrobacter pacificensis. The esterase exhibited the optimal activity around 25 °C and pH 7.5, and maintained as high as 55.0 % of its maximum activity at 0 °C, indicating its cold adaptation. Est10 was fairly stable under room temperatures, retaining more than 80 % of its original activity after incubation at 40 °C for 2 h. The highest activity was observed against the short-chain substrate p-nitrophenyl butyrate (C4) among the tested p-nitrophenyl esters (C2–C16). It was slightly activated at a low concentration (1 mM) of Zn²⁺, Mg²⁺, Ba²⁺, Ca²⁺, Cu²⁺, Fe³⁺, urea and EDTA, but was inhibited by DTT and totally inactivated by PMSF. Interestingly, increased salinity considerably stimulated Est10 activity (up to 143.2 % of original activity at 2 M NaCl) and stability (up to 126.4 % after incubation with 5 M NaCl for 6.5 h), proving its salt tolerance. 0.05 and 0.1 % Tween 20, Tween 80, Triton X-100 and CHAPS increased the activity and stability of Est10 while SDS, CTAB had the opposite effect. Est10 was quite active after incubation with several 30 % organic solvents (methanol, DMSO, ethanediol) but exhibited little activity with 30 % isopropanol, ethanol, n-butanol and acetonitrile.     

Effects of temperature,salinity and aerial exposure on predation and lysosomal stability of the dogwhelk Thais (Nucella) lapillus (L.)

The ingestion and absorption rate of standard length Thais lapillus (L.) stepwise-acclimated to constant temperature-salinity conditions and preying on Mytilus edulis (L.) varied directly with environmental salinity at 10, 15 and 20°C. Dogwhelk ingestion and absorption rates indicate that cold torpor existed at 5°C and heat stress was evident at 20°C. The feeding cycle duration was significantly longer for dogwhelks acclimated to 20%. S than in those acclimated to 30%. S at 10°C even though no significant difference existed between the two groups of snails in the drilling and ingestion or postfeeding phases of the cycle. Ingestive conditioning of dogwhelks to mussels occurred; the duration of the drilling and ingestion and total feeding cycle declined as a function of the number of mussels consumed by a snail. Dogwhelks of all sizes prey on a wide length range of mussels and there is also a high degree of variability in the ingestion rate of snails as a function of their size. A prominent feature of the lack of a relationship between dogwhelk ingestion rate and snail size was that the percentage of nonfeeding snails increased at low salinity and temperature extremes. Digestive-tubule cell lysosomal stability was tested as an index of digestive capability and animal condition; in stepwise-acclimated dogwhelks, it correlated well with their ingestion and absorption rates. The ingestion rate of dogwhelks acclimated to 30%. S and subjected to a 30?17.5?30%. S semidiurnal pattern of fluctuating salinity for 21 days was significantly lower than for snails maintained at 30%. S; however, snails acclimated to 17.5%. S and exposed to the same pattern of fluctuating salinity fed at a higher rate than snails maintained at 17.5%. S. Aerial exposure of snails maintained at 30%. S and 10°C water temperature resulted in an ingestion rate 2.1 times faster than for snails constantly submerged suggesting that tidal emersion is not always stressful to intertidal carnivores. The postfeeding phase of the feeding cycle was shortened in dogwhelks subjected to aerial exposure. Although significant variation occurred in digestive-tubule cell lysosomal stability during the first cycle of fluctuating salinity, the variability had declined significantly by Day 21. This observation suggests that digestive tubule lysosomal stability becomes adapted to a fluctuating osmotic environment, although the initial changes in lysosomal stability are probably related to intralysosomal protein catabolism and production of amino acids for intracellular osmoregulation. Variations in the osmotic environment of T. lapillus have resulted in unexpected outcomes with respect to their ingestion rate under conditions of fluctuating salinity and aerial exposure.     

Resistance of the fish-killing dinoflagellate Cochlodinium polykrikoides against algicidal bacteria isolated from the coastal sea of Japan

Noxious red tides of the dinoflagellate Cochlodinium polykrikoides tend to be long lasting and cause mass mortalities of cultured and natural fish and invertebrates along the western coast of Japan and the southern coast of Korea. In order to assess the tolerance of C. polykrikoides to attack by algicidal bacteria, the effects of algicidal bacteria strains on the growth of three C. polykrikoides strains were examined in laboratory culture experiments. Algicidal bacteria used were two strains of Cytophaga (J18/M01 and AA8-2, direct attack type and wide prey range), three strains of Alteromonas (S, K, D) and one strain of Pseudoalteromonas (R, indirect attack type), which were all isolated by using Chattonella antiqua as a prey organism. Neither Cytophaga strain showed any algicidal activity. In the cases of Alteromonas and Pseudoalteromonas, some cultures of C. polykrikoides were killed, but at least 10 days or more were required for the death of this dinoflagellate. C. polykrikoides survived in the presence of algicidal bacteria in concentrations up to 10⁶–10⁷ cells ml⁻¹, which is enough for other red tide microalgae to be killed. On the contrary, the algicidal effects of bacteria on C. antiqua were detected clearly within a few days. These results imply that C. polykrikoides is resistant to the six algicidal bacteria examined, which may reflect the capacity for mixotrophy. This resistance of C. polykrikoides to algicidal bacteria could provide a selective advantage for survival compared to other microalgae susceptible to attack by algicidal bacteria and hence prolong red tides caused by this harmful dinoflagellate.     

Solubility properties and diffusional extraction behavior of natamycin from streptomyces gilvosporeus biomass

Natamycin is a type of polyene macrolide antibiotic and has been produced in submerged microbial cultures of some natural Streptomyces strains. Natamycin extraction from cellular biomass is greatly affected by the molecular and solubilization characteristics of the extraction solvent, and this is a major reason for the routine attainment of low volumetric titers, resulting from sparing natamycin solubility. In this work, a series of experiments were conducted to investigate the solubility of natamycin in some selected organic solvents in order to assess the influence on natamycin extraction yield. Natamycin showed the highest solubility in 75% aqueous methanol under the conditions of pH 2, 30°C and 1 atm. Furthermore, the extraction of natamycin using 75% aqueous methanol was performed and the highest extraction yield of 45.7% was obtained under pH 2. A mathematical model derived from Fick's law of the biomolecular diffusion process was developed to fit the experimental kinetic data of natamycin extraction. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 2013     

Fast DNA isolation and PCR protocols for detection of methicillin-resistant staphylococci

A rapid method that included simple boiling DNA extraction followed by a fast polymerase chain reaction (PCR) cycling protocol designed to detect mecA, which characterizes methicillin-resistant Staphylococcus aureus (MRSA), was performed. Briefly, the PCR cycling protocol consisted of pre-denaturation at 95 °C for 30 s, 30 cycles of denaturation at 94 °C for 2 s, annealing at 52 °C for 5 s, extension for 10 s, and final extension at 72 °C for 1 min. A good level of reliability of the method was verified. The study has shown that the method described here represents a rapid and accurate DNA extraction and PCR-based identification system of MRSA, thus allowing clinicians to make early identification and early implementation of control measures.     

Sulfate esterifying activity of embryonic chick liver in vitro

A method has been described for the study of tissue sulfate-conjugating systems in vitro. Liver slices from embryonic chicks were maintained in vitro in a medium containing labeled inorganic sulfate and phenol. It was found that more of the sulfate was esterified at 20 °C. than at 37 °C. due to the longer continued activity at the lower temperature. All sulfate-esterifying activity was lost in liver slices maintained at 37 °C. for 30 hr. while those cultures maintained at 20 °C. continued to esterify sulfate for 70 hr.On the basis of our data there would appear to be a change in the thermal stability of the sulfate-esterifying enzyme system of the chick liver upon its transition from the embryonic stage to the stage of the fully developed chick. Data were presented for the chick 4 months ex ovo. We have been unable to detect any analogous temperature effects upon the sulfate-esterifying system in the livers of embryonic and adult rats.     

Evaluation of efficacy of stabilizers on the thermostability of live attenuated thermo-adapted <Emphasis Type="Italic">Peste des petits ruminants</Emphasis> vaccines

In this study, thermo-adapted (Ta) PPR vaccines were assessed for their stability at 25, 37, 40, 42 and 45°C in lyophilized form using two extrinsic stabilizers {lactalbumin hydrolysate-sucrose (LS) and stabilizer E} and in reconstituted form with the diluents (1 mol/L MgSO₄ or 0.85% NaCl). The lyophilized vaccines showed an expiry period of 24–26 days at 25°C, 7–8 days at 37°C and 3–4 days at 40°C. LS stabilizer was superior at 42°C with a shelf-life of 44 h, whereas in stabilizer E, a 40 h shelf-life with a comparable half-life was observed. At 45°C, the half-life in stabilizer E was better than LS and lasted for 1 day. Furthermore, the reconstituted vaccine maintained the titre for 48 h both at 4°C and 25°C and for 24–30 h at 37°C. As both the stabilizers performed equally well with regard to shelf-life and half-life, the present study suggests LS as stabilizer as a choice for lyophilization with 0.85% NaCl diluent, because it has better performance at higher temperature. These Ta vaccines can be used as alternatives to existing vaccines for the control of the disease in tropical countries as they are effective in avoiding vaccination failure due to the breakdown in cold-chain maintenance, as this vaccine is considerably more stable at ambient temperatures.