Natural product is one of the sources of drugs in pharmaceutical industry,and one of the notable origin of natural product is the medicinal plants.Medicinal plants tend to cure some certain diseases and could be a sou...Natural product is one of the sources of drugs in pharmaceutical industry,and one of the notable origin of natural product is the medicinal plants.Medicinal plants tend to cure some certain diseases and could be a source for potential drugs.The Department of Health of the Philippines approved 10 medicinal plants namely Allium sativum(Garlic/Bawang),Blumea balsamifera(Nagal camphor/sambong),Cassia alata(Ringworm bush/akapulko),Clinopodium douglasii(Mint/yerba Buena),Ehretia microphylla(Scorpion bush/Tsaang Gubat),Momordica charantia(Bitter Melon/Ampalaya),Peperomia pellucida(Silver bush/ulasimang Bato),Psidium guajava(Guava/Bayabas),Quisqualis indica(Rangoon creeper/niyug-niyogan),and Vitex negundo(Five-leaved Chaste Tree/lagundi).The review was conducted to show that these medicinal plants are capable in treating infections and some diseases.It was found that Allium sativum for the treatmet of wounds,hypertension and tootache;Blumea balsimifera is effective in diuretic treatment for hypertension;Cassia alata for the treatment of scabies,fungal infection,athlete’s foot,tinea flava,ringworm;Clinopodium douglasii for the treatment of muscle pain,arthritis,rheumatism,cough,headache;Ehretia microphylla for the treatment of diarrhea and stomachache;Momordica charantia for the treatment of diabetes mellitus;Peperomia pellucida for the treatment of gout and rheumatism;Psidium guajava for the treatment of wounds and diarrhea;Quisqualis indica for anti-helmintic medicine;and Vitex negundo for the treatment of cough,asthma,and fever.In conclusion,these 10 medicinal plants have natural products that can be used as source for potential drugs.However,there are still many species of ethnobotanical plants that are not yet investigated thoroughly and might be a source for potential drugs.Therefore,more investigations should be done in other species of plant,most especially for the plants with practical used.展开更多
P. tritici-repentis, B. graminb and C. sativus are important diseases of spring wheat in Estonia. Field trials were carried out during 2006 and 2008 in JiSgeva PBI. Two kinds of treatments were used: Tl consisted of ...P. tritici-repentis, B. graminb and C. sativus are important diseases of spring wheat in Estonia. Field trials were carried out during 2006 and 2008 in JiSgeva PBI. Two kinds of treatments were used: Tl consisted of four different rates of basic fertilizer: NO = NOPOK0; N1 = N60P13K23, N2 = N 100P22K39; N3 = N140P31K54 kg ha^-1. T2 treatment consisted of same rates of basic fertilizers and in addition growth regulator, fungicides and leaf fertilizers. Seeds of the varieties "Monsun" and "Vinjett" were untreated. Results of the effects of fertilizers on the infections of fungal diseases on spring wheat monoculture revealed that test years had the biggest influence on infection intensity of B. graminis (REy = 50.7-59.2) in T1 and T2 and P. tritici-repentis in T2 (REy = 31.6), whereas infection of C. sativus was more dependent on year in Tl (R2y = 37.3). Yield correlated highly with a fertilizer rate and year. In the treatment T2, the yield depended more on weather conditions (REy = 40.7) and in T1, the yield was more dependent on fertilization rate (REF = 60.2). We found TI to be more economic as the optimum N rate varied from N60 to N100 kg hat and the benefit in monetary terms raised from 297ε hal ("Monsun" 2007) to 9056 hal ("Vinjett" 2008). In T2, N rate 60 kg ha^-1 raised the monetary benefit from 806 ha^-1 ("Monsun" 2007) to 731ε ha^-1 ("Vinjett" 2008). The highest economic profit was gained by using low rates of fertilizer for "Monsun" and the highest rates of fertilizer for "Vinjett".展开更多
With the increasing use of PPCPs (pharmaceuticals and personal care products), the impact caused by the accumulation of PPCPs on the environment has become increasingly serious and has attracted considerable attenti...With the increasing use of PPCPs (pharmaceuticals and personal care products), the impact caused by the accumulation of PPCPs on the environment has become increasingly serious and has attracted considerable attention. In the last 10 years, major studies on PPCPs have focused on the sources and analytical testing of concentrations in the environment. Afterward, studies have shifted to the transfer and transformation of PCPPs in the environment and to the environmental risk assessment of PPCPs. Studies on PPCPs in the underground environment have mainly focused on their adsorption, desorption, transfer, and transformation in the aeration and saturation zones. The main methods applied in these studies include indoor simulation experiments and outdoor sampling and testing. These studies have mainly considered one dimension, and most of them have concentrated only on the aeration or saturation zone. Therefore, the main developing directions of studies on PPCPs are the comprehensive study of the transfer and transform process from source to sink in the underground environment and the establishment of an effective and efficient PPCP detection system,展开更多
Plants produce a wide spectrum of secondary metabolites that play critical roles in plant-environment interactions and against biotic and abiotic stresses. Moreover, many secondary metabolites have pharmaceu- tical ef...Plants produce a wide spectrum of secondary metabolites that play critical roles in plant-environment interactions and against biotic and abiotic stresses. Moreover, many secondary metabolites have pharmaceu- tical efficacy for a wide range of diseases (cancer, malaria, etc.). Controlled transcription of biosynthetic genes is one of the major mechanisms regulating sec- ondary metabolism in plants. Several transcription factor families such as MYC, MYB, WRKY and AP2/ERF have been found to be involved in the regulation of secondary metabolism in different medicinal plants. In addition, the biosynthesis and proper accumulation of secondary metabolites are also induced by signaling molecule jasmonic acid (JA). This review provides an insight into JA signaling pathway and JA-mediated transcriptional regu- lation of secondary metabolism (vinblastine, nicotine, artemisinin, taxol and ginsenoside) in a range of medicinal plant species.展开更多
文摘Natural product is one of the sources of drugs in pharmaceutical industry,and one of the notable origin of natural product is the medicinal plants.Medicinal plants tend to cure some certain diseases and could be a source for potential drugs.The Department of Health of the Philippines approved 10 medicinal plants namely Allium sativum(Garlic/Bawang),Blumea balsamifera(Nagal camphor/sambong),Cassia alata(Ringworm bush/akapulko),Clinopodium douglasii(Mint/yerba Buena),Ehretia microphylla(Scorpion bush/Tsaang Gubat),Momordica charantia(Bitter Melon/Ampalaya),Peperomia pellucida(Silver bush/ulasimang Bato),Psidium guajava(Guava/Bayabas),Quisqualis indica(Rangoon creeper/niyug-niyogan),and Vitex negundo(Five-leaved Chaste Tree/lagundi).The review was conducted to show that these medicinal plants are capable in treating infections and some diseases.It was found that Allium sativum for the treatmet of wounds,hypertension and tootache;Blumea balsimifera is effective in diuretic treatment for hypertension;Cassia alata for the treatment of scabies,fungal infection,athlete’s foot,tinea flava,ringworm;Clinopodium douglasii for the treatment of muscle pain,arthritis,rheumatism,cough,headache;Ehretia microphylla for the treatment of diarrhea and stomachache;Momordica charantia for the treatment of diabetes mellitus;Peperomia pellucida for the treatment of gout and rheumatism;Psidium guajava for the treatment of wounds and diarrhea;Quisqualis indica for anti-helmintic medicine;and Vitex negundo for the treatment of cough,asthma,and fever.In conclusion,these 10 medicinal plants have natural products that can be used as source for potential drugs.However,there are still many species of ethnobotanical plants that are not yet investigated thoroughly and might be a source for potential drugs.Therefore,more investigations should be done in other species of plant,most especially for the plants with practical used.
文摘P. tritici-repentis, B. graminb and C. sativus are important diseases of spring wheat in Estonia. Field trials were carried out during 2006 and 2008 in JiSgeva PBI. Two kinds of treatments were used: Tl consisted of four different rates of basic fertilizer: NO = NOPOK0; N1 = N60P13K23, N2 = N 100P22K39; N3 = N140P31K54 kg ha^-1. T2 treatment consisted of same rates of basic fertilizers and in addition growth regulator, fungicides and leaf fertilizers. Seeds of the varieties "Monsun" and "Vinjett" were untreated. Results of the effects of fertilizers on the infections of fungal diseases on spring wheat monoculture revealed that test years had the biggest influence on infection intensity of B. graminis (REy = 50.7-59.2) in T1 and T2 and P. tritici-repentis in T2 (REy = 31.6), whereas infection of C. sativus was more dependent on year in Tl (R2y = 37.3). Yield correlated highly with a fertilizer rate and year. In the treatment T2, the yield depended more on weather conditions (REy = 40.7) and in T1, the yield was more dependent on fertilization rate (REF = 60.2). We found TI to be more economic as the optimum N rate varied from N60 to N100 kg hat and the benefit in monetary terms raised from 297ε hal ("Monsun" 2007) to 9056 hal ("Vinjett" 2008). In T2, N rate 60 kg ha^-1 raised the monetary benefit from 806 ha^-1 ("Monsun" 2007) to 731ε ha^-1 ("Vinjett" 2008). The highest economic profit was gained by using low rates of fertilizer for "Monsun" and the highest rates of fertilizer for "Vinjett".
文摘With the increasing use of PPCPs (pharmaceuticals and personal care products), the impact caused by the accumulation of PPCPs on the environment has become increasingly serious and has attracted considerable attention. In the last 10 years, major studies on PPCPs have focused on the sources and analytical testing of concentrations in the environment. Afterward, studies have shifted to the transfer and transformation of PCPPs in the environment and to the environmental risk assessment of PPCPs. Studies on PPCPs in the underground environment have mainly focused on their adsorption, desorption, transfer, and transformation in the aeration and saturation zones. The main methods applied in these studies include indoor simulation experiments and outdoor sampling and testing. These studies have mainly considered one dimension, and most of them have concentrated only on the aeration or saturation zone. Therefore, the main developing directions of studies on PPCPs are the comprehensive study of the transfer and transform process from source to sink in the underground environment and the establishment of an effective and efficient PPCP detection system,
基金This work was supported by the National Natural Science Foundation of China (30470189, 81071821, 81250110086 and 81250110551), the Fundamental Research for the Central University of China (721500011), the Key Hunan Provincial Natural Science Foundation of China (13112016 and 07JJ5096), the Science and Technology Program of Hunan Province of China (2014SK4050) and Changsha National High Tech Zone Innovation Leading Talent Program (2014-37).
文摘Plants produce a wide spectrum of secondary metabolites that play critical roles in plant-environment interactions and against biotic and abiotic stresses. Moreover, many secondary metabolites have pharmaceu- tical efficacy for a wide range of diseases (cancer, malaria, etc.). Controlled transcription of biosynthetic genes is one of the major mechanisms regulating sec- ondary metabolism in plants. Several transcription factor families such as MYC, MYB, WRKY and AP2/ERF have been found to be involved in the regulation of secondary metabolism in different medicinal plants. In addition, the biosynthesis and proper accumulation of secondary metabolites are also induced by signaling molecule jasmonic acid (JA). This review provides an insight into JA signaling pathway and JA-mediated transcriptional regu- lation of secondary metabolism (vinblastine, nicotine, artemisinin, taxol and ginsenoside) in a range of medicinal plant species.
