The cellular fatty acids from a total of 62 strains of Torulopsis glabrata (T. glabrata), Saccharomyces cerevisiae (S. cerevisiae), Rhodotorula rubra (R. rubra), Candida krusei (C. krusei), Candida albicans (C. albica...The cellular fatty acids from a total of 62 strains of Torulopsis glabrata (T. glabrata), Saccharomyces cerevisiae (S. cerevisiae), Rhodotorula rubra (R. rubra), Candida krusei (C. krusei), Candida albicans (C. albicans) and Candida tropicalis (C. tropicalis) were examined by capillary gas chromatography. On the basis of fatty acid composition, all strains could be differentiated as to species. These results indicate that capillary gas chromatographic analysis of cellular fatty acids is likely to be useful for rapid identification or grouping of newer isolates of yeast species.展开更多
Payenapara lleloneura Kurz.(Kan-zaw),an endemic medicinal plant only found in Tanintharyi Region of Myanmar,is widely used in the treatment of various cancer and different ailments.In the present research,the seeds we...Payenapara lleloneura Kurz.(Kan-zaw),an endemic medicinal plant only found in Tanintharyi Region of Myanmar,is widely used in the treatment of various cancer and different ailments.In the present research,the seeds were phytochemical investigated for their nutritional potential for their use as functional foods or novel diet oil resources.Nutritional evaluation showed that the seeds are rich in fats and carbohydrates(soluble sugars and starch).Fatty acid analyses showed that the seeds accumulate very richα-eleostearic acid(α-ESA,18:3^(Δ9 cis,11-trans),13 trans),an important conjugated fatty acid,up to more than 70% of total fatty acids.The seed oil derived from the Kan-zaw tree contains approximately 3.25% β-eleostearic acid(18:3^(Δ9 trans,11 trans,13 trans)),an unusual conjugated fatty acid that imparts a potent anticancer application and industrially important drying qualities to Kan-zaw oil.Physicochemical properties of the Kan-zaw seeds were examined;petroleum ether(60–90℃)extract of seed oils were also investigated for the saponification value,iodine value and estimation of acid value.Further,the present study investigated cytotoxic potential of ethanol,methanol,acetone,chloroform Kan-zaw seed extracts and commercial Kan-zaw oil against human cervical cancer cell line(HeLa).The Kan-zaw extracts and oil have shown significant anticancer activity on HeLa cells.展开更多
The fatty acid composition of the low water-use shrub Fremontodendron californicum was examined by high temperature capillary gas chromatography. The ground seeds were extracted by supercritical fluid extraction (SFE)...The fatty acid composition of the low water-use shrub Fremontodendron californicum was examined by high temperature capillary gas chromatography. The ground seeds were extracted by supercritical fluid extraction (SFE) to obtain the oil (25.6% w/w) and for subsequent determination of the fatty acid composition. There are five fatty acids present at 1.0% or greater with linoleic 71% of the total. Oleic, palmitic, stearic, vaccenic plus traces of palmitoleic and linolenic comprise the remainder. The fatty acid methyl ester composition would make the oil suitable for biodiesel production.展开更多
This study aimed to determine the characteristics of soil microbial community composition and its relationship with soil chemical properties during natural recovery in the Loess Plateau.The soil microbial community co...This study aimed to determine the characteristics of soil microbial community composition and its relationship with soil chemical properties during natural recovery in the Loess Plateau.The soil microbial community composition was analyzed by comparing the soil microbial phospholipid fatty acids(PLFAs) of eight croplands abandoned for 1,3,5,10,13,15,20,and 30 yr in the Dunshan watershed,northern Loess Plateau,China.The results showed that soil organic carbon,total nitrogen,soil microbial biomass carbon,and soil microbial biomass nitrogen significantly increased with the abandonment duration,whereas the metabolic quotient significantly decreased.The Shannon richness and Shannon evenness of PLFAs significantly increased after 10 yr of abandonment.Gram-negative,Gram-positive,bacterial,fungal,and total PLFAs linearly increased with increased abandonment duration.Redundancy analysis showed that the abandonment duration was the most important environmental factor in determining the PLFA microbial community composition.The soil microbial PLFAs changed from anteiso-to iso-,unsaturated to saturated,and short-to long-chain during natural recovery.Therefore,in the Loess Plateau,cropland abandonment for natural recovery resulted in the increase of the soil microbial PLFA biomass and microbial PLFA species and changed the microbial from chemolithotrophic to a more heterotrophic community.展开更多
Diverse microbial community structures(MCS)in wastewater treatment plants(WWTPs)are vital for effectively removing nutrients and chemicals from wastewater.However,the regular monitoring of MCS in WWTP bioreac-tors rem...Diverse microbial community structures(MCS)in wastewater treatment plants(WWTPs)are vital for effectively removing nutrients and chemicals from wastewater.However,the regular monitoring of MCS in WWTP bioreac-tors remains unattractive owing to the skill and cost required for deploying modern microbial molecular tech-niques in the routine assessment of engineered systems.In contrast,low-resolution methods for assessing broad changes in the MCS,such as phospholipid fatty acid(PLFA)analysis,have been used effectively in soil studies for decades.Despite using PLFA analysis in soil remediation studies to capture the long-term effects of envi-ronmental changes on MCS,its application in WWTPs,where the microbial mass is dynamic and operational conditions are more fluid,remains limited.In this study,microbial communities in a controlled pilot plant and 12 full-scale activated sludge plants(ASPs)were surveyed over a two-year period using PLFA analysis.This study revealed that changes in the MCS in wastewater bioreactors could be detected using PLFA analysis.The MCS comprised 59%Gram-negative and 9%Gram-positive bacteria,31%fungi,and 1%actinomycetes.The abun-dances of Gram-negative bacteria and fungi were strongly inversely correlated,with an R^(2)=0.93,while the fatty acids cy17:0 and 16:1𝜔7c positively correlated(R^(2)=0.869).Variations in temperature,solid retention time,and WWTP configuration significantly influenced the MCS in activated sludge reactors.This study showed that WWTP bioreactors can be routinely monitored using PLFA analysis,and changes in the bioreactor profile that may indicate imminent bioreactor failure can be identified.展开更多
Aims Nitrogen(N)fertilization and lime addition may affect soil micro-bial and nematode communities and ecosystem functions through changing environmental conditions,such as soil pH and soil organic carbon.The objecti...Aims Nitrogen(N)fertilization and lime addition may affect soil micro-bial and nematode communities and ecosystem functions through changing environmental conditions,such as soil pH and soil organic carbon.The objectives of this experiment were to examine the impact of N input and liming on soil microbial and nematode communities and to identify the key environmental determinant of community composition in a century-old fertilization and crop rota-tion experiment.Methods The field experiment consisting of a 3-year crop rotation regime was established in 1911 in southeastern USA.Four treatments,(i)no-input control,(ii)NPK with winter legume,(iii)PK with legume and lime and(iv)NPK with legume and lime,were included in this study.soil samples collected at the 0-5 cm depth were used to determine the bacterial growth rate by the 3H-thymidine incorporation technique.Incorporation of 13C into neutral lipids,glycolipids and phospholipid fatty acids(PlFas)was measured after incubation of soil with 13C-labeled acetate for 24 h.Free-living nematodes in fresh soil were extracted using a density sucrose centrifugal flotation method and identified to trophic group level.Important Findingsliming resulted in a 10-fold increase in bacterial growth rates compared with the no-input control,whereas N fertilization had no significant effect.multivariate analysis of PlFa profiles showed that soil microbial community composition was different among the four treatments;the difference was primarily driven by soil pH.PlFas indicative of gram-negative bacteria covaried with soil pH,but not those of fungi and actinobacteria.liming enhanced 13C incorpora-tion into neutral lipids,glycolipids and phospholipids by 2-15 times.In addition,13C incorporation into 16:0,16:1ω9,18:1ω9,18:1ω7 and 18:2ω6 were greater than other PlFas,suggesting that gram-negative bacteria and fungi were more active and sensitive to simple C input.bacterivorous nematodes were the dominant trophic group in the soil,but no significant differences in nematode communities were found among the treatments.our results suggest that soil pH had a greater impact than N fertilization on soil microbial community composition and activity in a crop rotation system including legumes.展开更多
Aims The relationships between plant species and soil microorganisms remain indeterminable in different ecosystems worldwide.In karst ecosystems,soil microbial(SM)community structure and their environmental driving fa...Aims The relationships between plant species and soil microorganisms remain indeterminable in different ecosystems worldwide.In karst ecosystems,soil microbial(SM)community structure and their environmental driving factors are poorly explored,and the relationships between plant species and soil microorganisms are unclear.This study aimed to characterize the general patterns of SM community composition and biomass,and to explore the specific tree species and soil physiochemical properties highly related to SM community diversity and biomass in a karst forest.Methods The effects of tree species on SM community composition and biomass were firstly investigated on the basis of 212 soil samples collected from five dominant tree species(Lithocarpus confinis Huang,Platycarya longipes Wu,Itea yunnanensis Franch.,Machilus cavaleriei H.Lév.and Carpinus pubescens Burkill)through phospholipid fatty acid(PLFA)analysis of a karst evergreen and deciduous broad-leaved mixed forest in central Guizhou Province,southwestern China.The relationships between SM community structure and tree species and soil physiochemical properties were statistically analysed.Important Findings A total of 132 SM-PLFA biomarkers were detected.The average number of SM-PLFA biomarkers and microbial biomass in each soil sample were 65.97 and 11.22µg g^(–1),respectively.Tree species influenced the number of SM-PLFA biomarkers but not the SM biomass.The number of SM-PLFA biomarkers of C.pubescens was significantly higher than that of other species(P<0.05);the numbers of SM-PLFA biomarkers amongst other species showed no significant difference.Microbial biomass showed no relationships with the soil physiochemical properties of nutrient-rich surface soils but positively correlated(P<0.05)with soil organic carbon,nitrogen and phosphorus concentrations in deeper soils.The karst forest in the plateau-surface terrain of central Guizhou Province presented a low fungal-to-bacterial ratio,low microbial biomass storage and high microbial community diversity.Specific tree species affect the SM community diversity in this kind of karst forest.展开更多
文摘The cellular fatty acids from a total of 62 strains of Torulopsis glabrata (T. glabrata), Saccharomyces cerevisiae (S. cerevisiae), Rhodotorula rubra (R. rubra), Candida krusei (C. krusei), Candida albicans (C. albicans) and Candida tropicalis (C. tropicalis) were examined by capillary gas chromatography. On the basis of fatty acid composition, all strains could be differentiated as to species. These results indicate that capillary gas chromatographic analysis of cellular fatty acids is likely to be useful for rapid identification or grouping of newer isolates of yeast species.
基金the National Natural Science Foundation of China(grant numbers 31470365 and 31700216)the selfdetermined research funds of CCNU from the colleges’basic research and operation of MOE(grant numbers KJ02072016-0015 and KJ02072019-0346)a project of the Hubei Key Laboratory of Genetic Regulation and Integrative Biology(grant numbers GRIB201913)。
文摘Payenapara lleloneura Kurz.(Kan-zaw),an endemic medicinal plant only found in Tanintharyi Region of Myanmar,is widely used in the treatment of various cancer and different ailments.In the present research,the seeds were phytochemical investigated for their nutritional potential for their use as functional foods or novel diet oil resources.Nutritional evaluation showed that the seeds are rich in fats and carbohydrates(soluble sugars and starch).Fatty acid analyses showed that the seeds accumulate very richα-eleostearic acid(α-ESA,18:3^(Δ9 cis,11-trans),13 trans),an important conjugated fatty acid,up to more than 70% of total fatty acids.The seed oil derived from the Kan-zaw tree contains approximately 3.25% β-eleostearic acid(18:3^(Δ9 trans,11 trans,13 trans)),an unusual conjugated fatty acid that imparts a potent anticancer application and industrially important drying qualities to Kan-zaw oil.Physicochemical properties of the Kan-zaw seeds were examined;petroleum ether(60–90℃)extract of seed oils were also investigated for the saponification value,iodine value and estimation of acid value.Further,the present study investigated cytotoxic potential of ethanol,methanol,acetone,chloroform Kan-zaw seed extracts and commercial Kan-zaw oil against human cervical cancer cell line(HeLa).The Kan-zaw extracts and oil have shown significant anticancer activity on HeLa cells.
文摘The fatty acid composition of the low water-use shrub Fremontodendron californicum was examined by high temperature capillary gas chromatography. The ground seeds were extracted by supercritical fluid extraction (SFE) to obtain the oil (25.6% w/w) and for subsequent determination of the fatty acid composition. There are five fatty acids present at 1.0% or greater with linoleic 71% of the total. Oleic, palmitic, stearic, vaccenic plus traces of palmitoleic and linolenic comprise the remainder. The fatty acid methyl ester composition would make the oil suitable for biodiesel production.
基金funded by the Strategic Technology Project of Chinese Academy of Sciences (XDA05060300)the Science and Technology Research and Development Program of Shaanxi Province, China (2011KJXX63)
文摘This study aimed to determine the characteristics of soil microbial community composition and its relationship with soil chemical properties during natural recovery in the Loess Plateau.The soil microbial community composition was analyzed by comparing the soil microbial phospholipid fatty acids(PLFAs) of eight croplands abandoned for 1,3,5,10,13,15,20,and 30 yr in the Dunshan watershed,northern Loess Plateau,China.The results showed that soil organic carbon,total nitrogen,soil microbial biomass carbon,and soil microbial biomass nitrogen significantly increased with the abandonment duration,whereas the metabolic quotient significantly decreased.The Shannon richness and Shannon evenness of PLFAs significantly increased after 10 yr of abandonment.Gram-negative,Gram-positive,bacterial,fungal,and total PLFAs linearly increased with increased abandonment duration.Redundancy analysis showed that the abandonment duration was the most important environmental factor in determining the PLFA microbial community composition.The soil microbial PLFAs changed from anteiso-to iso-,unsaturated to saturated,and short-to long-chain during natural recovery.Therefore,in the Loess Plateau,cropland abandonment for natural recovery resulted in the increase of the soil microbial PLFA biomass and microbial PLFA species and changed the microbial from chemolithotrophic to a more heterotrophic community.
文摘Diverse microbial community structures(MCS)in wastewater treatment plants(WWTPs)are vital for effectively removing nutrients and chemicals from wastewater.However,the regular monitoring of MCS in WWTP bioreac-tors remains unattractive owing to the skill and cost required for deploying modern microbial molecular tech-niques in the routine assessment of engineered systems.In contrast,low-resolution methods for assessing broad changes in the MCS,such as phospholipid fatty acid(PLFA)analysis,have been used effectively in soil studies for decades.Despite using PLFA analysis in soil remediation studies to capture the long-term effects of envi-ronmental changes on MCS,its application in WWTPs,where the microbial mass is dynamic and operational conditions are more fluid,remains limited.In this study,microbial communities in a controlled pilot plant and 12 full-scale activated sludge plants(ASPs)were surveyed over a two-year period using PLFA analysis.This study revealed that changes in the MCS in wastewater bioreactors could be detected using PLFA analysis.The MCS comprised 59%Gram-negative and 9%Gram-positive bacteria,31%fungi,and 1%actinomycetes.The abun-dances of Gram-negative bacteria and fungi were strongly inversely correlated,with an R^(2)=0.93,while the fatty acids cy17:0 and 16:1𝜔7c positively correlated(R^(2)=0.869).Variations in temperature,solid retention time,and WWTP configuration significantly influenced the MCS in activated sludge reactors.This study showed that WWTP bioreactors can be routinely monitored using PLFA analysis,and changes in the bioreactor profile that may indicate imminent bioreactor failure can be identified.
基金Alabama Agricultural Land Grant Alliancethe Alabama Agricultural Experiment Station+1 种基金National Science Foundation of China(31200408,30925010)National Science Foundation of China-Guangdong Joint Project(U1131001).
文摘Aims Nitrogen(N)fertilization and lime addition may affect soil micro-bial and nematode communities and ecosystem functions through changing environmental conditions,such as soil pH and soil organic carbon.The objectives of this experiment were to examine the impact of N input and liming on soil microbial and nematode communities and to identify the key environmental determinant of community composition in a century-old fertilization and crop rota-tion experiment.Methods The field experiment consisting of a 3-year crop rotation regime was established in 1911 in southeastern USA.Four treatments,(i)no-input control,(ii)NPK with winter legume,(iii)PK with legume and lime and(iv)NPK with legume and lime,were included in this study.soil samples collected at the 0-5 cm depth were used to determine the bacterial growth rate by the 3H-thymidine incorporation technique.Incorporation of 13C into neutral lipids,glycolipids and phospholipid fatty acids(PlFas)was measured after incubation of soil with 13C-labeled acetate for 24 h.Free-living nematodes in fresh soil were extracted using a density sucrose centrifugal flotation method and identified to trophic group level.Important Findingsliming resulted in a 10-fold increase in bacterial growth rates compared with the no-input control,whereas N fertilization had no significant effect.multivariate analysis of PlFa profiles showed that soil microbial community composition was different among the four treatments;the difference was primarily driven by soil pH.PlFas indicative of gram-negative bacteria covaried with soil pH,but not those of fungi and actinobacteria.liming enhanced 13C incorpora-tion into neutral lipids,glycolipids and phospholipids by 2-15 times.In addition,13C incorporation into 16:0,16:1ω9,18:1ω9,18:1ω7 and 18:2ω6 were greater than other PlFas,suggesting that gram-negative bacteria and fungi were more active and sensitive to simple C input.bacterivorous nematodes were the dominant trophic group in the soil,but no significant differences in nematode communities were found among the treatments.our results suggest that soil pH had a greater impact than N fertilization on soil microbial community composition and activity in a crop rotation system including legumes.
基金the National Basic Research Program of China(2016YFC0502304,2018YFC0507203,2016YFC0502101)the National Science Foundation of China(31870462)and the Natural Science Foundation of Zhejiang Province(LQ20C030003).
文摘Aims The relationships between plant species and soil microorganisms remain indeterminable in different ecosystems worldwide.In karst ecosystems,soil microbial(SM)community structure and their environmental driving factors are poorly explored,and the relationships between plant species and soil microorganisms are unclear.This study aimed to characterize the general patterns of SM community composition and biomass,and to explore the specific tree species and soil physiochemical properties highly related to SM community diversity and biomass in a karst forest.Methods The effects of tree species on SM community composition and biomass were firstly investigated on the basis of 212 soil samples collected from five dominant tree species(Lithocarpus confinis Huang,Platycarya longipes Wu,Itea yunnanensis Franch.,Machilus cavaleriei H.Lév.and Carpinus pubescens Burkill)through phospholipid fatty acid(PLFA)analysis of a karst evergreen and deciduous broad-leaved mixed forest in central Guizhou Province,southwestern China.The relationships between SM community structure and tree species and soil physiochemical properties were statistically analysed.Important Findings A total of 132 SM-PLFA biomarkers were detected.The average number of SM-PLFA biomarkers and microbial biomass in each soil sample were 65.97 and 11.22µg g^(–1),respectively.Tree species influenced the number of SM-PLFA biomarkers but not the SM biomass.The number of SM-PLFA biomarkers of C.pubescens was significantly higher than that of other species(P<0.05);the numbers of SM-PLFA biomarkers amongst other species showed no significant difference.Microbial biomass showed no relationships with the soil physiochemical properties of nutrient-rich surface soils but positively correlated(P<0.05)with soil organic carbon,nitrogen and phosphorus concentrations in deeper soils.The karst forest in the plateau-surface terrain of central Guizhou Province presented a low fungal-to-bacterial ratio,low microbial biomass storage and high microbial community diversity.Specific tree species affect the SM community diversity in this kind of karst forest.
