Microorganisms living in polar zones play an important part as the potential source of organic activity materials with low temperature characteristics in the bio-technological applications. A psychrotrophic bacterium ...Microorganisms living in polar zones play an important part as the potential source of organic activity materials with low temperature characteristics in the bio-technological applications. A psychrotrophic bacterium (strain Ar/w/b/75°/10/5) , producing cellulose at low temperatures during late-exponential and early-stationary phases of cell growth, was isolated from sea ice-covered surface water in Chuckchi Sea, Arctic. This bacterium, with rod cells, was Gram-negative, slightly halophilic. Colony growing on agar plate was in black. Optimum growth temperature was 15℃. No cell growth was observed at 351 or above. Optimum salt concentration for cell growth was between 2 and 3 % of sodium chloride in media. Maximal cellulase activity was detected at a temperature of 35℃ and pH8. Cellulase was irreversibly inactivated when incubated at 55℃ within 30 min. Enzyme can be kept stable at the temperature no higher than 25℃. Of special interest was that this bacterium produced various extracellular enzymes including cellulase, amylase, agar hydrolase and protease, at low or moderate temperature conditions, which is certainly of it potential value for applications.展开更多
The aim of this research work was to explore psychrotrophic microbes from soil sample of NyAlesund, Svalbard, arctic region and to investigate their potential use as an effective tool for industrial application. A nov...The aim of this research work was to explore psychrotrophic microbes from soil sample of NyAlesund, Svalbard, arctic region and to investigate their potential use as an effective tool for industrial application. A novel psychrotrophic bacterial strain showed good growth on minimal medium containing lipid as the only carbon source. Microbiological characterisation of the isolate showed that it was a gram negative rod. The strain was tested for the production of extracellular lipase enzyme. The enzymes were partially purified by 90% saturated ammonium sulfate and dialysis for desalting. The bacterium was identified as Pseudomonas sp ADT3 by 16S rRNA amplification and sequencing which had been deposited in the NCBI GenBank with accession number JX914667. Phylogenetic tree was also constructed with MEGA5 software and showed the highest level of sequence similarity with Pseudomonas sp. HC3-13 strain. The microorganism had a growth optimum at pH 8.0 and temperature 22°C. Optimization of different parameters e.g. temperature, pH, incubation time, cofactors etc. was performed for the extracellular lipase activity. The hydrolytic activity of the enzyme was enhanced 5 times by Pb2+ but strongly inhibited by heavy metals Hg2+ as well as EDTA and β-mercaptoethanol. For the molecular weight estimation of enzyme SDS-PAGE was done which showed an inducible band of approximately 13.9 KDa. Activity staining and mass spectrometry techniques were also performed.展开更多
[Objective] The research aimed to initially study degradation effect of the CODc, in sewage by two psychrotrophs. [Method] Two psychrotrophs were isolated from the activated sludge of wastewater treatment plant in Tia...[Objective] The research aimed to initially study degradation effect of the CODc, in sewage by two psychrotrophs. [Method] Two psychrotrophs were isolated from the activated sludge of wastewater treatment plant in Tianjin Konggang Economic Area. CODc, degradation ability of the screened psychrotroph was analyzed in simulated domestic wastewater at 6℃. [Result] K 36 was identified as Comamonas testosterone, and K 38 was identified as Serratia fonticola. CODcr degradation abilities of the two strains were different in test. COOcr removal rates of the K 36 and K 38 respectively reached up to 23% and 53%. The measured result of growth rate suggested that two psychrotrophs both had high activities at low temperature. [ Conclusion] K 36 and K 38 had potentials in wastewater treatment application.展开更多
The occurrence and the detection system of mesophilic and psychrotrophic aerobic sporulating microorganisms (MPAS) in raw cow's milk were studied. Samples of raw cow's bulk tank milk were taken 21 times in 14 farm...The occurrence and the detection system of mesophilic and psychrotrophic aerobic sporulating microorganisms (MPAS) in raw cow's milk were studied. Samples of raw cow's bulk tank milk were taken 21 times in 14 farms during one year. Basis of the method for MPAS assessment is the milk sample inactivation at the temperature 80-82 ℃ for 30 minutes followed by incubation in cultivation dishes at 30 -4- 1 ℃ for 3 days-mesophilic aerobic sporulates (MAS), and at 6.5 .4- 1 ℃ for 10 days-psychrotrophic aerobic sporulates (PAS). The total count of MPAS was within the span 2.5-340 CFU/mL (colony forming units). Average plate count of MPAS was 59.4 CFU/mL with variation coefficient 93.1%. MPAS count found in the same dishes at incubation for mesophilic and subsequently strictly psychrophilic microorganisms (MAS + SPAS) which enables to exclude overestimation of results by sporulates able to grow at both incubation temperatures was on average 56.9 CFU/mL what represents 95.8% out of the number of sums of individual dishes at two temperatures (MAS + PAS). Correlation coefficient of these two types of results r = 0.99 gives evidence of close dependence that is expressed by linear regression equation y = 0.9773x. We can consider the method using at first 30 .4- 1 ℃ and subsequently 6.5 -4-1℃ (MAS + SPAS) as more correct than the method with the opposite order of cultivation temperatures because of better regression coefficient of linear dependence and higher correlation coefficient in relation to the sum of independent incubations (MAS + PAS).展开更多
The storage and transportation of raw milk at low temperatures promote the growth of psychrotrophic bacteria and the production of thermo-stable enzymes, which pose great threats to the quality and shelf-life of dairy...The storage and transportation of raw milk at low temperatures promote the growth of psychrotrophic bacteria and the production of thermo-stable enzymes, which pose great threats to the quality and shelf-life of dairy products. Though many studies have been carried out on the spoilage potential of psychrotrophic bacteria and the thermo-stabUities of the enzymes they produce, further detailed studies are needed to devise an effective strategy to avoid dairy spoilage. The purpose of this study was to explore the spoilage potential of psychrotrophic bacteria from Chinese raw milk samples at both room temperature (28 ℃) and refrigerated temperature (7 ℃). Species of Yersinia, Pseudomonas, Serratia, and Chryseobacterium showed high proteolytic activity. The highest proteolytic activity was shown by Yersinia intermedia followed by Pseudomonas fluorescens (d). Lipolytic activity was high in isolates of Acinetobacter, and the highest in Acinetobacter guillouiae. Certain isolates showed positive ^-galactosidase and phospholipase activity. Strains belonging to the same species sometimes showed markedly different phenotypic characteristics. Proteases and lipases produced by psychrotrophic bacteria retained activity after heat treatment at 70, 80, or 90 ℃, and proteases appeared to be more heat-stable than lipases. For these reasons, thermo-stable spoilage enzymes produced by a high number of psychrotrophic bacterial isolates from raw milk are of major concern to the dairy industry. The results of this study provide valuable data about the spoilage potential of bacterial strains in raw milk and the thermal resistance of the enzymes they produce.展开更多
To guarantee the efficiency of biotreatment of domestic wastewater in chilly season, six high efficient cold-adapted microorganisms were isolated, and identified as Zoogloea, Aeromonas, Flarobacterium, Micrococcus, Ba...To guarantee the efficiency of biotreatment of domestic wastewater in chilly season, six high efficient cold-adapted microorganisms were isolated, and identified as Zoogloea, Aeromonas, Flarobacterium, Micrococcus, Bacillus, Pseudomonas. These cold-adapted microorganisms with 63.67% Chemical Oxygen Demand (COD) removal efficiency higher than that of mesophiles at low temperature were immobilized on soft polyurethane foams and applied to internal circulation compound bioreactor (ICCBR) to treat domestic wastewater. In an experiment period of 12 months, the treatment efficiency, ecological factors, sludge physicochemical properties, and microbiology were studied. Results showed that the average COD removal efficiency in the ICCBR was 85.79% between 4℃ and 10℃ in winter, and 86.66% in the whole year, and COD of systemic effluent was below 60 mg·L-1 which could achieve the first-degree B discharge standard of pollutants in China for municipal wastewater treatment plant. The reduction in microfauna and biomass on carriers could be associated with the seasonal temperature transients, the concentrations of protozoa and metazoan decreased from 110000±30000 microorgan-isms/mL sludge in summer to 35000±20000 microorganisms/mL sludge in winter, and biomass on car-riers increased in the beginning and slightly reduced in the end.展开更多
基金This work was supported in part by State Oceanic Administration(No.99614)the State Ministry of Science and Technology(No.2001 DIA50040 6)National Nature Science Foundation of China(No.40006010).
文摘Microorganisms living in polar zones play an important part as the potential source of organic activity materials with low temperature characteristics in the bio-technological applications. A psychrotrophic bacterium (strain Ar/w/b/75°/10/5) , producing cellulose at low temperatures during late-exponential and early-stationary phases of cell growth, was isolated from sea ice-covered surface water in Chuckchi Sea, Arctic. This bacterium, with rod cells, was Gram-negative, slightly halophilic. Colony growing on agar plate was in black. Optimum growth temperature was 15℃. No cell growth was observed at 351 or above. Optimum salt concentration for cell growth was between 2 and 3 % of sodium chloride in media. Maximal cellulase activity was detected at a temperature of 35℃ and pH8. Cellulase was irreversibly inactivated when incubated at 55℃ within 30 min. Enzyme can be kept stable at the temperature no higher than 25℃. Of special interest was that this bacterium produced various extracellular enzymes including cellulase, amylase, agar hydrolase and protease, at low or moderate temperature conditions, which is certainly of it potential value for applications.
文摘The aim of this research work was to explore psychrotrophic microbes from soil sample of NyAlesund, Svalbard, arctic region and to investigate their potential use as an effective tool for industrial application. A novel psychrotrophic bacterial strain showed good growth on minimal medium containing lipid as the only carbon source. Microbiological characterisation of the isolate showed that it was a gram negative rod. The strain was tested for the production of extracellular lipase enzyme. The enzymes were partially purified by 90% saturated ammonium sulfate and dialysis for desalting. The bacterium was identified as Pseudomonas sp ADT3 by 16S rRNA amplification and sequencing which had been deposited in the NCBI GenBank with accession number JX914667. Phylogenetic tree was also constructed with MEGA5 software and showed the highest level of sequence similarity with Pseudomonas sp. HC3-13 strain. The microorganism had a growth optimum at pH 8.0 and temperature 22°C. Optimization of different parameters e.g. temperature, pH, incubation time, cofactors etc. was performed for the extracellular lipase activity. The hydrolytic activity of the enzyme was enhanced 5 times by Pb2+ but strongly inhibited by heavy metals Hg2+ as well as EDTA and β-mercaptoethanol. For the molecular weight estimation of enzyme SDS-PAGE was done which showed an inducible band of approximately 13.9 KDa. Activity staining and mass spectrometry techniques were also performed.
基金Supported by Excellent Talent Support Plan Project in New Century, Ministry of Education,China(NCET-09-0586)Special Project of the Science Research in Public Welfare Industry,Ministry of Water Resources,China (201101018,201201114)Special Item of the National International Science and Technology Cooperation(S2013BGR0244)
文摘[Objective] The research aimed to initially study degradation effect of the CODc, in sewage by two psychrotrophs. [Method] Two psychrotrophs were isolated from the activated sludge of wastewater treatment plant in Tianjin Konggang Economic Area. CODc, degradation ability of the screened psychrotroph was analyzed in simulated domestic wastewater at 6℃. [Result] K 36 was identified as Comamonas testosterone, and K 38 was identified as Serratia fonticola. CODcr degradation abilities of the two strains were different in test. COOcr removal rates of the K 36 and K 38 respectively reached up to 23% and 53%. The measured result of growth rate suggested that two psychrotrophs both had high activities at low temperature. [ Conclusion] K 36 and K 38 had potentials in wastewater treatment application.
文摘The occurrence and the detection system of mesophilic and psychrotrophic aerobic sporulating microorganisms (MPAS) in raw cow's milk were studied. Samples of raw cow's bulk tank milk were taken 21 times in 14 farms during one year. Basis of the method for MPAS assessment is the milk sample inactivation at the temperature 80-82 ℃ for 30 minutes followed by incubation in cultivation dishes at 30 -4- 1 ℃ for 3 days-mesophilic aerobic sporulates (MAS), and at 6.5 .4- 1 ℃ for 10 days-psychrotrophic aerobic sporulates (PAS). The total count of MPAS was within the span 2.5-340 CFU/mL (colony forming units). Average plate count of MPAS was 59.4 CFU/mL with variation coefficient 93.1%. MPAS count found in the same dishes at incubation for mesophilic and subsequently strictly psychrophilic microorganisms (MAS + SPAS) which enables to exclude overestimation of results by sporulates able to grow at both incubation temperatures was on average 56.9 CFU/mL what represents 95.8% out of the number of sums of individual dishes at two temperatures (MAS + PAS). Correlation coefficient of these two types of results r = 0.99 gives evidence of close dependence that is expressed by linear regression equation y = 0.9773x. We can consider the method using at first 30 .4- 1 ℃ and subsequently 6.5 -4-1℃ (MAS + SPAS) as more correct than the method with the opposite order of cultivation temperatures because of better regression coefficient of linear dependence and higher correlation coefficient in relation to the sum of independent incubations (MAS + PAS).
基金Project supported by the National Natural Science Foundation of China(No.31772080)the Major Science and Technology Projects of Zhejiang Province(No.2015C02039),China
文摘The storage and transportation of raw milk at low temperatures promote the growth of psychrotrophic bacteria and the production of thermo-stable enzymes, which pose great threats to the quality and shelf-life of dairy products. Though many studies have been carried out on the spoilage potential of psychrotrophic bacteria and the thermo-stabUities of the enzymes they produce, further detailed studies are needed to devise an effective strategy to avoid dairy spoilage. The purpose of this study was to explore the spoilage potential of psychrotrophic bacteria from Chinese raw milk samples at both room temperature (28 ℃) and refrigerated temperature (7 ℃). Species of Yersinia, Pseudomonas, Serratia, and Chryseobacterium showed high proteolytic activity. The highest proteolytic activity was shown by Yersinia intermedia followed by Pseudomonas fluorescens (d). Lipolytic activity was high in isolates of Acinetobacter, and the highest in Acinetobacter guillouiae. Certain isolates showed positive ^-galactosidase and phospholipase activity. Strains belonging to the same species sometimes showed markedly different phenotypic characteristics. Proteases and lipases produced by psychrotrophic bacteria retained activity after heat treatment at 70, 80, or 90 ℃, and proteases appeared to be more heat-stable than lipases. For these reasons, thermo-stable spoilage enzymes produced by a high number of psychrotrophic bacterial isolates from raw milk are of major concern to the dairy industry. The results of this study provide valuable data about the spoilage potential of bacterial strains in raw milk and the thermal resistance of the enzymes they produce.
基金Supported by the Natural Science Foundation of Heilongjiang Province (Grant No. E01-22)Science and Technology Priority Research Foundation of Harbin (Grant No. 2003AA4CS122)
文摘To guarantee the efficiency of biotreatment of domestic wastewater in chilly season, six high efficient cold-adapted microorganisms were isolated, and identified as Zoogloea, Aeromonas, Flarobacterium, Micrococcus, Bacillus, Pseudomonas. These cold-adapted microorganisms with 63.67% Chemical Oxygen Demand (COD) removal efficiency higher than that of mesophiles at low temperature were immobilized on soft polyurethane foams and applied to internal circulation compound bioreactor (ICCBR) to treat domestic wastewater. In an experiment period of 12 months, the treatment efficiency, ecological factors, sludge physicochemical properties, and microbiology were studied. Results showed that the average COD removal efficiency in the ICCBR was 85.79% between 4℃ and 10℃ in winter, and 86.66% in the whole year, and COD of systemic effluent was below 60 mg·L-1 which could achieve the first-degree B discharge standard of pollutants in China for municipal wastewater treatment plant. The reduction in microfauna and biomass on carriers could be associated with the seasonal temperature transients, the concentrations of protozoa and metazoan decreased from 110000±30000 microorgan-isms/mL sludge in summer to 35000±20000 microorganisms/mL sludge in winter, and biomass on car-riers increased in the beginning and slightly reduced in the end.