ABSTRACT
BACKGROUND: Removal of dyes from wastewater by microorganisms through adsorption, degradation, or accumulation has been investigated. Biological methods used for dye treatment are generally always effective and environmentally friendly. In this study, biosorption of the Fast Black K salt azo dye by the bacterium Rhodopseudomonas palustris 51ATA was studied spectrophotometrically, at various pH (210), temperatures (25°C, 35°C, and 45°C) and dye concentrations (25400 mg L-1). RESULTS: The bacterial strain showed extremely good dye-removing potential at various dye concentrations. IR studies at different temperatures showed that the dye was adsorbed on the bacterial surface at lower temperatures. Characteristics of the adsorption process were investigated by Scatchard analysis at 25°C and 35°C. Scatchard analysis of the equilibrium binding data for the dye on this bacterium gave rise to linear plots, indicating that the Langmuir model could be applied. The regression coefficients obtained for the dye from the Freundlich and Langmuir models were significant and divergence from the Scatchard plot was observed. CONCLUSION: The adsorption behavior of the dye on this bacterium was expressed by the Langmuir, Freundlich, and Temkin isotherms. The adsorption data with respect to various temperatures provided an excellent fit to the Freundlich isotherm. However, when the Langmuir and Temkin isotherm models were applied to these data, a good fit was only obtained for the dye at lower temperatures, thus indicating that the biosorption ability of R. palustris 51ATA is dependent on temperature, pH, and dye concentration.
Subject(s)
Rhodopseudomonas/metabolism , Diazonium Compounds/metabolism , Coloring Agents/metabolism , Temperature , Azo Compounds/analysis , Azo Compounds/metabolism , Contaminant Removal , Adsorption , Coloring Agents/analysis , Wastewater , Hydrogen-Ion ConcentrationABSTRACT
To establish a method for radioligand binding assay of thyroid hormone receptors(TR)in human osteoblast-like osteosarcoma cell line MG-63 and to estimate the kinetic parameters of putative receptors. The MG-63cell was cultured in Ham's F12, the soluble TR was prepared from the intact nuclear extracts. The binding properties between TR and T3 were performed by using the traditional Scatchard analysis. The apparent Ka of TR in MG-63 is 7.68× 109 L/mol, and MBC(111. 25+ 10.77)fmol/mg protein. The study indicated that MG-63 cells possessed high affinity and limited-capacity of TR in its nuclear extracts. This may serve as the starting and basic work about TR in bone cell.
ABSTRACT
A BASIC program was written to analyse the data from radioreceptor assay by microcomputer. Concentrations of ligand, total binding, nonspecific binding, specific binding and the ratio of specific binding (number of receptor sites) to free ligand content were calculated for each point. The receptor binding affinity constant and binding capacity were obtained by Sca-tchard analysis. Results and graphs can be displayed on the screen and/ or printed out by using a graphic printer
ABSTRACT
The Scatchard plot in a radioreceptor assay depends upon the definition of specific binding and the quality of the iodinated hormone used. Iodination of protein hormones may alter it so that it no longer binds to the receptor and methods are available to measure the extent of this inactivation. When appropriate corrections are made for specific binding and the amount of inactive iodinated hormone in an assay, both qualitative and quantitative differences were observed in estimates of binding capacity and affinity in some well characterised hormone receptor systems. Theoretical predictions derived from Scatchard analysis of irreversible unimolecular hormone-receptor interactions were applicable, both qualitatively and quantitatively to two irreversible hormone-receptor systems. A method described permits a more accurate estimate of capacity from radioreceptor assay data.