This work examines the possibility that a potential mode of action of PRF is to modulate the lipid order in target membranes. The effect on monolayers and bilayers of dipalmitoyl-sn-glycero-3-phosphorylcholine (DPPC) was probed using Langmuir monolayer isotherms, differential scanning calorimetry (DSC), isothermal titration calorimetry (ITC) and molecular dynamics (MD) simulations. Increasing amounts of PRF in a DPPC monolayer causes a decrease in isothermal compressibility modulus at the phase transition. A partition constant for PRF in DPPC liposomes on the order of K approximate to 1500 M-1 was found, and the partitioning was found to be enthalpy-driven BMS-754807 manufacturer above the melting temperature (T.).
A decrease in T. with PRF content was found whereas the bilayer melting enthalpy Delta H-m remains almost constant. The last finding indicates that PRF incorporates into the membrane at a depth near the phosphatidylcholine headgroup, in agreement with our MD-simulations. The simulations also reveal that PRF partitions into the membrane on a timescale of 0.5 mu s and has a cholesterol-like ordering effect on DPPC in the fluid phase. The vertical location https://www.selleckchem.com/products/gdc-0032.html of the PRF binding site in a bacterial ligand-gated ion channel coincides with the location found in our MD-simulations. Our results suggest that multiple physicochemical mechanisms
may determine anesthetic potency of PRF, including effects on proteins that are mediated through the bilayer. (C) 2013 Elsevier Ireland Ltd. All rights reserved.”
“NIR spectroscopy has been extensively employed for the in-line
monitoring of pharmaceutical processes as one of the key PAT implementation tools. Nevertheless, pharmaceutical processes such as fluid-bed coating have not fully made the most of the NIR in-line monitoring primarily due to a difficulty in handling random in-line spectra. In this study, novel approaches to develop a reasonable dynamic calibration find more model were proposed; averaging and clustering. Pharmaceutical test tablets were coated with HPMC-based materials using a fluid-bed processor. During the 160 min coating process under tangential spraying mode, 10 tablets were sampled out at every 10 min mark for actual coating thickness measurements. NIR spectra at and near each 10 min mark were treated and processed by the averaging and clustering operations. Averaging of 21 spectra resulted in a reasonably good dynamic calibration model whose determination coefficient, was estimated as high as 0.9916. The PCA-based clustering turned out to be substantially helpful especially when a large number of NIR spectra were averaged. A prediction experiment verified that our dynamic calibration model can control the coating thickness in-line as good as 3% deviated from the actual thickness, which can offer a reasonable end-point for the fluid-bed coating process.