Thermochemical Investigation of Ternary Nonelectrolyte Mixtures

Teng, I-Lih

12 1900

Excess molar volumes have been determined for four ternary chlorobenzene + dibutyl ether + alkane mixtures at 25°C. Results of these measurements are used to test the applications and limitations of BAB, Redlich-Kister, Kohler and Hwang et al. cubic models. For the systems studied, Redlich- Kister, Kohler and Cubic models were found to provide reasonable predictions. Differences between experimental and predicted ΔV^ex_123 values were about ±0.020 cm^3mol^-1 or less at most ternary compositions. Solubilities are reported for anthracene in binary mixtures containing propanol and butanol with alkanes at 25°C. Results of these measurements are used to test the NIBS/Redlich-Kister expression. The three-parameter form of this expression is found to provide reasonable mathematical representation with deviations between experimental and back-calculated values being less than ±1%.

ternary nonelectrolyte mixtures

Redlich-Kister expression

Kohler model

Thermochemical Study of Crystalline Solutes Dissolved in Ternary Hydrogen-Bonding Solvent Mixtures

Pribyla, Karen J.

05 1900

The purpose of this dissertation is to investigate the thermochemical properties of nonelectrolyte solutes dissolved in ternary solvent mixtures, and to develop mathematical expressions for predicting and describing behavior in the solvent mixtures. Forty-five ternary solvent systems were studied containing an ether (Methyl tert-butyl ether, Dibutyl ether, or 1,4-Dioxane), an alcohol (1-Propanol, 2-Propanol, 1-Butanol, 2-Butanol, or 2-Methyl-1-propanol), and an alkane (Cyclohexane, Heptane, or 2,2,4-Trimethylpentane) cosolvents. The Combined NIBS (Nearly Ideal Binary Solvent)/Redlich-Kister equation was used to assess the experimental data. The average percent deviation between predicted and observed values was less than ± 2 per cent error, documenting that this model provides a fairly accurate description of the observed solubility behavior. In addition, Mobile Order theory, the Kretschmer-Wiebe model, and the Mecke-Kempter model were extended to ternary solvent mixtures containing an alcohol (or an alkoxyalcohol) and alkane cosolvents. Expressions derived from Mobile Order theory predicted the experimental mole fraction solubility of anthracene in ternary alcohol + alkane + alkane mixtures to within ± 5.8%, in ternary alcohol + alcohol + alkane mixtures to within ± 4.0%, and in ternary alcohol + alcohol + alcohol mixtures to within ± 3.6%. In comparison, expressions derived from the Kretschmer-Wiebe model and the Mecke-Kempter model predicted the anthracene solubility in ternary alcohol + alkane + alkane mixtures to within ± 8.2% and ± 8.8%, respectively. The Kretschmer-Wiebe model and the Mecke-Kempter model could not be extended easily to systems containing two or more alcohol cosolvents.

Thermochemistry.

Solution (Chemistry)

Solvents.

solubility

nonelectrolyte

hydrogen-bonding

ternary solvents

complexation

self-association

solubility predictions

Vliv vápenatých iontů a cholesterolu na kanálotvornou aktivitu Adenylát-cyklázového toxinu / Effect of calcium ions and cholesterol on channel forming activity of Adenylate-cyclase toxin

Doktorová, Eliška

January 2013

1 Abstract Adenylate cyclase toxin (CyaA) is one of the major virulence factors of bacterium Bordetella pertussis, which is a causative agent of whooping cough. CyaA belongs to the family of RTX toxin-hemolysins. The toxin targets primarily cells expressing integrin receptor CD11b/CD18 but it can also penetrate cells lacking this receptor. CyaA acts on host cells by two independent activities. One is formation of small cation-selective channels, which can lead to colloid osmotic lysis of target cells. The second is disruption of cell signaling through the translocation of the adenylate cyclase (AC) domain to host cell cytosol, which leads to the conversion of ATP into cyclic AMP. It was recently shown that cholesterol affects endocytosis of CyaA. CyaA translocates it's AC domain after relocation of CyaA molecule to the cholesterol-rich lipid raft (Bumba et al. 2010). In this work I examined the effect of cholesterol on channel- forming activity and selectivity of ion channels created by CyaA. For measurements I used artificial membranes enriched with cholesterol. CyaA channels are voltage-dependent. The positive membrane potential on the side of toxin is rquired for incorporation of CyaA molecule into cell membrane. I tried to find out whether the value of voltage has effect on channels opening time....