Objective:Acorus calamus(AC)L.(Araceae)is an annual semi-aquatic and aromatic plant found in Europe,North America and Asia.Its rhizomes are often used by Native Americans,Americans,and Chinese as well as by other cult...Objective:Acorus calamus(AC)L.(Araceae)is an annual semi-aquatic and aromatic plant found in Europe,North America and Asia.Its rhizomes are often used by Native Americans,Americans,and Chinese as well as by other cultures.Ethnobotanical studies and documents have shown their use in various disease treatments,such as insomnia,mental disorders,diabetes mellitus,epilepsy,inflammation,asthma,neuropathic pain,and diarrhea.In this study,the antidepressant activity of methanolic and hydroalcoholic extracts of the AC rhizome part in mice was investigated.Methods:Three doses of methanolic extract of AC rhizome(MEACR)(25,50 and 100 mg/kg b.wt),three doses of hydroalcoholic extract of AC rhizome(HAACR)(100,200 and 400 mg/kg b.wt),and standards(imipramine,15 mg/kg b.wt and fluoxetine,20 mg/kg b.wt)was daily oral administration to the mice for consecutive 14 days.The extract effect on the immobility time was monitored by a tail suspension test(TST)and a forced swimming test(FST).Monoamine oxidase(MAO)levels were also analyzed using standard methods.Results:The optimum antidepressant activity was viewed at 100 mg/kg b.wt of MEACR extract and400 mg/kg b.wt of HAACR extract with 23.82%and 20.59%immobility period reduction,respectively.Besides,the extracts weakened the FST-induced elevation of MAO activity significantly and returned to near-normal levels of neurotransmitters in the brain.100 mg/kg b.wt or above of MEACR extract significantly prevented the MAO-A and MAO-B activities in mice brain at a dose-dependent fashion.But,just 400 mg/kg b.wt of HAACR extract prevented the activity of MAO-A and MAO-B.Fluoxetine and imipramine showed a tendency to prevent the activity of MAO-A and MAO-B.Conclusion:This study suggests that AC rhizome extract mediated antidepressant activity by modulating the central neurochemical and hypothalamic-pituitary-adrenal(HPA)axis in response to FST and TSTinduced stress.Therefore,AC rhizome extract can be used as a valuable plant supplement to treat depressive disorders.展开更多
The insecticidal activity of Acorus calamus L. rhizome-derived material against adults of Sitophilus zeamais Motschulsky was examined by using repellency method and contact toxicity. The biologically active constituen...The insecticidal activity of Acorus calamus L. rhizome-derived material against adults of Sitophilus zeamais Motschulsky was examined by using repellency method and contact toxicity. The biologically active constituent of the A. calamus rhizome was separated and identified. The results showed that the ethanol extract of A. calamus had strong repellency and contact effect to S. zeamais and the active constituent of the A. calamus was characterized as (Z)-asarone by spectroscopic analysis. Responses from the tests varied with exposure times and doses. In the repellency test, ethanol extract of A. calamus had 93.92% repellency at 629.08 μg/cm^2 but only 71.38% at 157.27 μg/cm^2 12 h after treatment. As a contrast, (Z)-asarone showed 84.50% repellency at 314.54μg/cm^2 and 77.02% at 78.63 μg/cm^2 12 h after treatment. In the filter paper diffusion test, ethanol extract of A. calamus caused 95.56% and 17.78% mortality to S. zeamais at 314.54 μg/cm^2 and 78.63 μg/ cm^2 4 days after treatment, while (Z)-asarone brought about 100.00% and 15.56% mortality at 40.89 μg/cm^2 and 15.73 μg/cm^2 respectively. These results indicate that the insecticidal activity of the A. calamus extract may be due to (Z)-asarone.展开更多
Acorus calamus is a highly valued medicinal plant with global distribution used in several drugs of health care systems. We evaluated the genetic diversity and population structure of 50 populations of A. calamus from...Acorus calamus is a highly valued medicinal plant with global distribution used in several drugs of health care systems. We evaluated the genetic diversity and population structure of 50 populations of A. calamus from different geographical regions in India through RAPD and chloroplast microsatellite markers. From the total screened 82 RAPD primers and 18 cpSSR primers, 10 RAPD and nine cpSSRs were found polymorphic. The selected 10 RAPD primers produced a total of 96 reproducible bands, out of which 65 were polymorphic (67.70%). Whereas, the selected nine cpSSR markers produced 26 alleles and all of them were polymorphic. The mean genetic diversity (H T ) among populations using RAPD (H T = 0.263) and cpSSR (H T = 0.530) markers was higher in comparison to the mean genetic diversity within populations. Mean coefficient of gene differentiation (G ST ) between the populations was also high for both RAPD (G ST = 0.830) and cpSSR markers (G ST = 0.735), whereas the estimated gene flow was very low for RAPD (Nm = 0.102) and for cpSSR (Nm = 0.179). AMOVA analysis revealed that more genetic variation resided among the populations than within populations. Significant differences (p 0.001) were observed between the populations and individuals within the populations. Cluster analysis of RAPD and cpSSR data using UPGMA algorithm based on Nei’s genetic similarity matrix placed the 50 populations into two main clusters. The implication of the results of this study in devising strategy for conservation of A. calamus is discussed.展开更多
The purpose of the current study was to determine the total phenolic and flavonoid content and total antioxidant activity of the Curcuma longa, Acorus calamus, and Camellia sinensis ethanolic extracts and their free r...The purpose of the current study was to determine the total phenolic and flavonoid content and total antioxidant activity of the Curcuma longa, Acorus calamus, and Camellia sinensis ethanolic extracts and their free radical scavenging activity. The study concluded that the Curcuma longa, Acorus calamus, and Camellia sinensis ethanolic extracts have a good source of phenolics, flavonoids, and antioxidant sources in turn which opens the high possibility of the extracts being used as food preservatives. The DPPH assay for scavenging free radicals showed that the IC<sub>50</sub> value was above 123% of Curcuma longa ethanolic extract, 129.9% μg/ml of Acorus calamus ethanolic extract and 25% of Camellia sinensis ethanolic extracts shows very strong inhibition of the free radicals. Thus, comparing the DPPH assay for scavenging free radicals of Curcuma longa, Acorus calamus and Camellia sinensis ethanolic extracts with the positive control ascorbic acid, Curcuma longa and Camellia sinensis ethanolic extracts showed strong inhibition of the free radicals.展开更多
文摘Objective:Acorus calamus(AC)L.(Araceae)is an annual semi-aquatic and aromatic plant found in Europe,North America and Asia.Its rhizomes are often used by Native Americans,Americans,and Chinese as well as by other cultures.Ethnobotanical studies and documents have shown their use in various disease treatments,such as insomnia,mental disorders,diabetes mellitus,epilepsy,inflammation,asthma,neuropathic pain,and diarrhea.In this study,the antidepressant activity of methanolic and hydroalcoholic extracts of the AC rhizome part in mice was investigated.Methods:Three doses of methanolic extract of AC rhizome(MEACR)(25,50 and 100 mg/kg b.wt),three doses of hydroalcoholic extract of AC rhizome(HAACR)(100,200 and 400 mg/kg b.wt),and standards(imipramine,15 mg/kg b.wt and fluoxetine,20 mg/kg b.wt)was daily oral administration to the mice for consecutive 14 days.The extract effect on the immobility time was monitored by a tail suspension test(TST)and a forced swimming test(FST).Monoamine oxidase(MAO)levels were also analyzed using standard methods.Results:The optimum antidepressant activity was viewed at 100 mg/kg b.wt of MEACR extract and400 mg/kg b.wt of HAACR extract with 23.82%and 20.59%immobility period reduction,respectively.Besides,the extracts weakened the FST-induced elevation of MAO activity significantly and returned to near-normal levels of neurotransmitters in the brain.100 mg/kg b.wt or above of MEACR extract significantly prevented the MAO-A and MAO-B activities in mice brain at a dose-dependent fashion.But,just 400 mg/kg b.wt of HAACR extract prevented the activity of MAO-A and MAO-B.Fluoxetine and imipramine showed a tendency to prevent the activity of MAO-A and MAO-B.Conclusion:This study suggests that AC rhizome extract mediated antidepressant activity by modulating the central neurochemical and hypothalamic-pituitary-adrenal(HPA)axis in response to FST and TSTinduced stress.Therefore,AC rhizome extract can be used as a valuable plant supplement to treat depressive disorders.
文摘The insecticidal activity of Acorus calamus L. rhizome-derived material against adults of Sitophilus zeamais Motschulsky was examined by using repellency method and contact toxicity. The biologically active constituent of the A. calamus rhizome was separated and identified. The results showed that the ethanol extract of A. calamus had strong repellency and contact effect to S. zeamais and the active constituent of the A. calamus was characterized as (Z)-asarone by spectroscopic analysis. Responses from the tests varied with exposure times and doses. In the repellency test, ethanol extract of A. calamus had 93.92% repellency at 629.08 μg/cm^2 but only 71.38% at 157.27 μg/cm^2 12 h after treatment. As a contrast, (Z)-asarone showed 84.50% repellency at 314.54μg/cm^2 and 77.02% at 78.63 μg/cm^2 12 h after treatment. In the filter paper diffusion test, ethanol extract of A. calamus caused 95.56% and 17.78% mortality to S. zeamais at 314.54 μg/cm^2 and 78.63 μg/ cm^2 4 days after treatment, while (Z)-asarone brought about 100.00% and 15.56% mortality at 40.89 μg/cm^2 and 15.73 μg/cm^2 respectively. These results indicate that the insecticidal activity of the A. calamus extract may be due to (Z)-asarone.
基金The work was supported by a grant from Ministry of Human Resource Development,Government of India,through the University Grants Commission to University of Mysore,under the Institution of Excellence scheme.
基金supported by the NMPB (National Medicinal Plant Board),India
文摘Acorus calamus is a highly valued medicinal plant with global distribution used in several drugs of health care systems. We evaluated the genetic diversity and population structure of 50 populations of A. calamus from different geographical regions in India through RAPD and chloroplast microsatellite markers. From the total screened 82 RAPD primers and 18 cpSSR primers, 10 RAPD and nine cpSSRs were found polymorphic. The selected 10 RAPD primers produced a total of 96 reproducible bands, out of which 65 were polymorphic (67.70%). Whereas, the selected nine cpSSR markers produced 26 alleles and all of them were polymorphic. The mean genetic diversity (H T ) among populations using RAPD (H T = 0.263) and cpSSR (H T = 0.530) markers was higher in comparison to the mean genetic diversity within populations. Mean coefficient of gene differentiation (G ST ) between the populations was also high for both RAPD (G ST = 0.830) and cpSSR markers (G ST = 0.735), whereas the estimated gene flow was very low for RAPD (Nm = 0.102) and for cpSSR (Nm = 0.179). AMOVA analysis revealed that more genetic variation resided among the populations than within populations. Significant differences (p 0.001) were observed between the populations and individuals within the populations. Cluster analysis of RAPD and cpSSR data using UPGMA algorithm based on Nei’s genetic similarity matrix placed the 50 populations into two main clusters. The implication of the results of this study in devising strategy for conservation of A. calamus is discussed.
文摘The purpose of the current study was to determine the total phenolic and flavonoid content and total antioxidant activity of the Curcuma longa, Acorus calamus, and Camellia sinensis ethanolic extracts and their free radical scavenging activity. The study concluded that the Curcuma longa, Acorus calamus, and Camellia sinensis ethanolic extracts have a good source of phenolics, flavonoids, and antioxidant sources in turn which opens the high possibility of the extracts being used as food preservatives. The DPPH assay for scavenging free radicals showed that the IC<sub>50</sub> value was above 123% of Curcuma longa ethanolic extract, 129.9% μg/ml of Acorus calamus ethanolic extract and 25% of Camellia sinensis ethanolic extracts shows very strong inhibition of the free radicals. Thus, comparing the DPPH assay for scavenging free radicals of Curcuma longa, Acorus calamus and Camellia sinensis ethanolic extracts with the positive control ascorbic acid, Curcuma longa and Camellia sinensis ethanolic extracts showed strong inhibition of the free radicals.