Correlation and Estimation of Gas-Chloroform and Water-Chloroform Partition Coefficients by a Linear Free Energy Relationship Method was written by Abraham, Michael H.;Platts, James A.;Hersey, Anne;Leo, Albert J.;Taft, Robert W.. And the article was included in Journal of Pharmaceutical Sciences in 1999.Reference of 6924-68-1 This article mentions the following:
A linear free energy relation, LFER, has been used to correlate 150 values of gas-chloroform partition coefficients, as log Lchl with a standard deviation, sd, of 0.23 log units, a correlation coefficient r2 of 0.985, and an F-statistic of 1919. The equation reveals that bulk chloroform is dipolar/polarizable, of little hydrogen-bond basicity, but as strong a hydrogen-bond acid as bulk methanol or bulk ethanol. However, the main influence on gaseous solubility in chloroform is due to solute-solvent London dispersion interactions. A slightly modified LFER has been used to correlate 302 values of water-chloroform partition coefficients, as log Pchl. The correlation equation predicts log Pchl for a further 34 compounds not used in the equation with sd = 0.17 log units. When the LFER is applied to all 335 log Pchl values, the resulting equation has sd = 0.25, r2 = 0.971, and F = 2218. The importance of these results lies in the recent use of the water-chloroform system as a measure of solute lipophilicity and of recent calculations of the transfer of nucleic acids from water to chloroform. Furthermore if the water-chloroform system is to be generally used as a measure of solute lipophilicity in drug design, it will be of very considerable help to have a predictive procedure available. The authors have shown that the multiple linear regression anal. (MLRA) method is capable of correlating log Pchl values rather better than computational methods although the present MLRA method suffers from the possible lack of availability of the required descriptors. In the experiment, the researchers used many compounds, for example, Ethyl pyrazine-2-carboxylate (cas: 6924-68-1Reference of 6924-68-1).
Ethyl pyrazine-2-carboxylate (cas: 6924-68-1) belongs to pyrazine derivatives. Pyrazine derivatives have antitumor, antibiotic, anticonvulsant, antituberculous and diuretic effects as well as kinase, enzymatic and potent tubulin and FtsZ polymerization inhibitory activities. Pyrazines undergo nearly all of the same reactions as pyrimidines, from nucleophilic substitution (SNAr) to palladium-catalyzed cross coupling reactions.Reference of 6924-68-1