crispus and has implications for the management of sustainable constructed wetland operation. This study provides a scientific basis for the potential utilisation of the constructed wetland plant P. crispus EtOAc extract could change the cell morphology and block the MDA-MB-231 cell cycle at the S phase and that the mechanisms of cell death were apoptosis and necrosis. Morphological observation, cell cycle, and death analysis were conducted to evaluate the cytotoxic activity. crispus EtOAc extract showed anti-tumor activities against MDA-MB-231 cells. Thereafter, the cytotoxicity assay was conducted by using ES-2 human ovarian cancer and MDA-MB-231 human breast cancer cell lines. 10.4.2: FlowJo icons on high resolution monitors now correctly sized.
FLOWJO 7.6.1 REGISTRATION
crispus were extracted and separated into three parts by using petroleum ether, ethyl acetate (EtOAc), and n-butyl alcohol. Or registration number for a piece of software. crispus for tumor cell cytotoxicity, the total secondary metabolites of P. The efficiency utilisation of wetland plant resources with a large amount of biomass is important in encouraging the harvest and sustainable self-support management of constructed wetlands. crispus requires that the species be harvested at the appropriate time to ensure the effectiveness of pollutant removal and minimise the risk of secondary pollution. However, the extraordinary rapid vegetative growth of P. is a cosmopolitan aquatic macrophyte that has been deployed in constructed wetland as engineering species for ecological and purification functions.
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