Title : Computational neural network analysis of the affinity of N-n-alkylnicotinium salts for the alpha4beta2* nicotinic acetylcholine receptor - Zheng_2009_J.Enzyme.Inhib.Med.Chem_24_157 |
Author(s) : Zheng F , Zheng G , Deaciuc AG , Zhan CG , Dwoskin LP , Crooks PA |
Ref : J Enzyme Inhib Med Chem , 24 :157 , 2009 |
Abstract :
Based on an 85 molecule database, linear regression with different size datasets and an artificial neural network approach have been used to build mathematical relationships to fit experimentally obtained affinity values (K(i)) of a series of mono- and bis-quaternary ammonium salts from [(3)H]nicotine binding assays using rat striatal membrane preparations. The fitted results were then used to analyze the pattern among the experimental K(i) values of a set of N-n-alkylnicotinium analogs with increasing n-alkyl chain length from 1 to 20 carbons. The affinity of these N-n-alkylnicotinium compounds was shown to parabolically vary with increasing numbers of carbon atoms in the n-alkyl chain, with a local minimum for the C(4) (n-butyl) analogue. A decrease in K(i) value between C(12) and C(13) was also observed. The statistical results for the best neural network fit of the 85 experimental K(i) values are r(2) = 0.84, rmsd = 0.39; r(cv)(2) = 0.68, and loormsd = 0.56. The generated neural network model with the 85 molecule training set may also be of value for future predictions of K(i) values for new virtual compounds, which can then be identified, subsequently synthesized, and tested experimentally. |
PubMedSearch : Zheng_2009_J.Enzyme.Inhib.Med.Chem_24_157 |
PubMedID: 18629679 |
Zheng F, Zheng G, Deaciuc AG, Zhan CG, Dwoskin LP, Crooks PA (2009)
Computational neural network analysis of the affinity of N-n-alkylnicotinium salts for the alpha4beta2* nicotinic acetylcholine receptor
J Enzyme Inhib Med Chem
24 :157
Zheng F, Zheng G, Deaciuc AG, Zhan CG, Dwoskin LP, Crooks PA (2009)
J Enzyme Inhib Med Chem
24 :157