Objective: To investigate the protective effect of purslane with carbamazepine treatment.Methods: Male albino rats were modulated by pilocarpine to be epileptic.Both the normal and epileptic rats were treated with car...Objective: To investigate the protective effect of purslane with carbamazepine treatment.Methods: Male albino rats were modulated by pilocarpine to be epileptic.Both the normal and epileptic rats were treated with carbamazepine, purslane or carbamazepine plus purslane, with separate non-treated control groups for both normal and epileptic rats.Results: The data from the current study showed amelioration in amino acids and electrolytes in the epileptic rats treated with purslane and carbamazepine, with this amelioration occurring without decreasing the fertility hormones(testosterone,dehydroepiandrosterone, luteinizing hormone and follicle stimulating hormone).Purslane treatments also prevented the increase in estradiol.The decreased epileptic hyperexcitability with purslane was evidenced by decreased glial fibrillary acidic protein and lipid peroxidation.Conclusions: Natural products like purslane could be used with the highly repetitive drugs like carbamazepine to reduce or prevent its side-effects.展开更多
The research status of nutrient composition, medicinal value, development and utilization and cultivation techniques of purslane was analyzed to provide reference for further development and utilization of medicinal p...The research status of nutrient composition, medicinal value, development and utilization and cultivation techniques of purslane was analyzed to provide reference for further development and utilization of medicinal plant purslane.展开更多
Purslane, a common weed, has been used as food or folk medicine in many countries. The growth, medicinal components and nutrient contents of the plant are closely associated with endophytes, especially endophytic fung...Purslane, a common weed, has been used as food or folk medicine in many countries. The growth, medicinal components and nutrient contents of the plant are closely associated with endophytes, especially endophytic fungi. In this study, the endophytic fungi associated with purslane were isolated, and the effects of the isolates on the host were investigated to lay a foundation for further research and development of purslane resources. The results showed that a total of eight endophytic fungi were isolated from purslane (collected from Hohhot, Inner Mongolia, China), and they belonged to the genera Penicillium (isolates K, N, P, M and I), Chaetomium (isolate J), Fusarium (isolate H) and Petriella (isolate O). Moreover, the growth of purslane was significantly influenced by its endophytic fungi. Isolate M can significantly decrease the germination rate, while J can significantly increase the germination rate of purslane. In addition, H, J and M can significantly increase the bud length of purslane, and the fermentation broth of P has a negative influence on the bud length of purslane. M and I can significantly increase the height, fresh weight and chlorophyll content of purslane due, in part, to the lower pH of the fermentation broth of I and M.展开更多
Soil salinity is among the abiotic stressors that threaten agriculture the most,and purslane(Portulaca oleracea L.)is a dicot species adapted to inland salt desert and saline habitats that hyper accumulates salt and h...Soil salinity is among the abiotic stressors that threaten agriculture the most,and purslane(Portulaca oleracea L.)is a dicot species adapted to inland salt desert and saline habitats that hyper accumulates salt and has high phytoremediation potential.Many researchers consider purslane a suitable model species to study the mechanisms of plant tolerance to drought and salt stresses.Here,a robust salinity stress protocol was developed and used to characterize the morphophysiological responses of young purslane plants to salinity stress;then,leaf tissue underwent characterization by distinct omics platforms to gain further insights into its response to very high salinity stress.The salinity stress protocol did generate different levels of stress by gradients of electrical conductivity at field capacity and water potential in the saturation extract of the substrate,and the morphological parameters indicated three distinct stress levels.As expected from a halophyte species,these plants remained alive under very high levels of salinity stress,showing salt crystal-like structures constituted mainly by Na^(+),Cl^(−),and K^(+)on and around closed stomata.A comprehensive and large-scale metabolome and transcriptome single and integrated analyses were then employed using leaf samples.The multi-omics integration(MOI)system analysis led to a data-set of 51 metabolic pathways with at least one enzyme and one metabolite differentially expressed due to salinity stress.These data sets(of genes and metabolites)are valuable for future studies aimed to deepen our knowledge on the mechanisms behind the high tolerance of this species to salinity stress.In conclusion,besides showing that this species applies salt exclusion already in young plants to support very high levels of salinity stress,the initial analysis of metabolites and transcripts data sets already give some insights into other salt tolerance mechanisms used by this species to support high levels of salinity stress.展开更多
文摘Objective: To investigate the protective effect of purslane with carbamazepine treatment.Methods: Male albino rats were modulated by pilocarpine to be epileptic.Both the normal and epileptic rats were treated with carbamazepine, purslane or carbamazepine plus purslane, with separate non-treated control groups for both normal and epileptic rats.Results: The data from the current study showed amelioration in amino acids and electrolytes in the epileptic rats treated with purslane and carbamazepine, with this amelioration occurring without decreasing the fertility hormones(testosterone,dehydroepiandrosterone, luteinizing hormone and follicle stimulating hormone).Purslane treatments also prevented the increase in estradiol.The decreased epileptic hyperexcitability with purslane was evidenced by decreased glial fibrillary acidic protein and lipid peroxidation.Conclusions: Natural products like purslane could be used with the highly repetitive drugs like carbamazepine to reduce or prevent its side-effects.
文摘The research status of nutrient composition, medicinal value, development and utilization and cultivation techniques of purslane was analyzed to provide reference for further development and utilization of medicinal plant purslane.
文摘Purslane, a common weed, has been used as food or folk medicine in many countries. The growth, medicinal components and nutrient contents of the plant are closely associated with endophytes, especially endophytic fungi. In this study, the endophytic fungi associated with purslane were isolated, and the effects of the isolates on the host were investigated to lay a foundation for further research and development of purslane resources. The results showed that a total of eight endophytic fungi were isolated from purslane (collected from Hohhot, Inner Mongolia, China), and they belonged to the genera Penicillium (isolates K, N, P, M and I), Chaetomium (isolate J), Fusarium (isolate H) and Petriella (isolate O). Moreover, the growth of purslane was significantly influenced by its endophytic fungi. Isolate M can significantly decrease the germination rate, while J can significantly increase the germination rate of purslane. In addition, H, J and M can significantly increase the bud length of purslane, and the fermentation broth of P has a negative influence on the bud length of purslane. M and I can significantly increase the height, fresh weight and chlorophyll content of purslane due, in part, to the lower pH of the fermentation broth of I and M.
基金Funding The authors disclose receipt of the following financial support for the research,authorship,and/or publication of this article:the grant(01.13.0315.00-DendePalm Project)for this study was awarded by the Brazilian Research and Innovation Agency(FINEP).
文摘Soil salinity is among the abiotic stressors that threaten agriculture the most,and purslane(Portulaca oleracea L.)is a dicot species adapted to inland salt desert and saline habitats that hyper accumulates salt and has high phytoremediation potential.Many researchers consider purslane a suitable model species to study the mechanisms of plant tolerance to drought and salt stresses.Here,a robust salinity stress protocol was developed and used to characterize the morphophysiological responses of young purslane plants to salinity stress;then,leaf tissue underwent characterization by distinct omics platforms to gain further insights into its response to very high salinity stress.The salinity stress protocol did generate different levels of stress by gradients of electrical conductivity at field capacity and water potential in the saturation extract of the substrate,and the morphological parameters indicated three distinct stress levels.As expected from a halophyte species,these plants remained alive under very high levels of salinity stress,showing salt crystal-like structures constituted mainly by Na^(+),Cl^(−),and K^(+)on and around closed stomata.A comprehensive and large-scale metabolome and transcriptome single and integrated analyses were then employed using leaf samples.The multi-omics integration(MOI)system analysis led to a data-set of 51 metabolic pathways with at least one enzyme and one metabolite differentially expressed due to salinity stress.These data sets(of genes and metabolites)are valuable for future studies aimed to deepen our knowledge on the mechanisms behind the high tolerance of this species to salinity stress.In conclusion,besides showing that this species applies salt exclusion already in young plants to support very high levels of salinity stress,the initial analysis of metabolites and transcripts data sets already give some insights into other salt tolerance mechanisms used by this species to support high levels of salinity stress.