99). Onalespib ic50 The student ‘t’ test showed significant differences in the density values (<0.01). Therefore, differences in density oscillations were possible in the present work. Since density is a physical phenomenon, disregarding the chemical structures of the sour taste stimulants, regression
analysis was attempted for finding out the correlations between the densities of the solutions and concentrations. The regression analysis gave poor correlation coefficient (R2 = 0.2427) indicating the contribution of the physical phenomenon as only to the tune of 24%. The data of density of solutions at 1.0 mol dm−3 solutions (y1) were processed against the densities (x2) of substances ( Table 1). 11 The regression TSA HDAC in vivo analysis was given as: y = 0.1100×2 + 0.8803 (n = 4; R2 = 0.8992). The density ratios (y2) were correlated with
the densities of substances (x2) ( Table 1). The regression was given as: y2 = 0.1105×2 + 0.8838 (n = 4; R2 = 1.0). The correlations were excellent. Density was implicated in the analysis of hydrodynamic oscillations. Hydrodynamic oscillations were obtained at different concentrations of the sour taste category (acids). Through the experimental setup, the time-voltage profile for each concentration of a sour taste stimulant was obtained. Citric acid solution (1.0 mol dm−3) was recorded in Fig. 2a. A perusal to Fig. 2a indicated a bulge portion followed by a narrow portion and vice versa. These could be termed as ‘oscillations’. The up-flow and down-flow were also observed with naked eye confirming density oscillations. Oscillations were also obtained for hydrochloric acid solution (1.0 mol dm−3), lactic acid solution (1.0 mol dm−3), and tartaric acid solution (1.0 mol dm−3), respectively, in Fig. 2b, c and d. Figure 2 indicated that the oscillations of all sour taste
stimulants were similar. These density oscillations were different from earlier reports, 7, 8 and 9 may be on account of advanced tools (plotter, electrodes, DAQ and software). Hydrodynamic oscillations were obtained for other concentrations of citric acid solutions, namely 0.5, 0.75, 1.00, and 1.25 mol dm−3 and were found to be similar. This provided the prima facie evidence of occurrence of oscillations, instrumentally. Oscillations Phosphoprotein phosphatase were uniformly observed at concentrations from 0.5 to 1.25 mol dm−3 for hydrochloric acid, lactic acid, and tartaric acid solutions. Below 0.5 mol dm−3 solutions, oscillations were not observed with present method and even with naked eye. The flow directions (oscillations) were correlated with the electrical potential differences detected by platinum electrodes. These oscillations of time-domain plot can be identified with the help of electrical double layer hypothesis.12 ○ The ions (charges) are accumulated at the top (of the capillary) on account of acid solution in the inner tube.