Structure−Odor Relationships: Using Neural Networks in the Estimation of Camphoraceous or Fruity Odors and Olfactory Thresholds of Aliphatic Alcohols

Structure−odor relationships were established for a sample of 99 aliphatic alcohols using a three-layer backpropagation neural network. The molecular structure was described using a common skeleton with six possible substitutions. Substituents were described using only their van der Waals volumes. T...

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Published in	Journal of Chemical Information and Computer Sciences Vol. 36; no. 1; pp. 108 - 113
Main Authors	Chastrette, Maurice, Cretin, Dominique, El Aïdi
Format	Journal Article
Language	English
Published	United States American Chemical Society 01.01.1996
Subjects	ALCANFOR ALCOHOLES Alcohols - chemistry ALCOOL ANALISIS DE REDES ANALYSE DE RESEAU APLICACIONES DEL ORDENADOR APPLICATION DES ORDINATEURS CAMPHRE Chemical structures Computerized information storage and retrieval FRUIT FRUTO Humans MATEMATICAS MATHEMATIQUE Molecular Structure Neural Networks (Computer) ODEUR Odorants - analysis Odours OLOR Sensory Thresholds - physiology Smell - physiology TECHNIQUE DE PREVISION TECNICAS DE PREDICCION
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Abstract	Structure−odor relationships were established for a sample of 99 aliphatic alcohols using a three-layer backpropagation neural network. The molecular structure was described using a common skeleton with six possible substitutions. Substituents were described using only their van der Waals volumes. The discrimination between fruity and camphoraceous odors of 67 compounds gave good results in classification (100%) and prediction (85%) phases. With the global set, the network correctly classified and predicted the camphoraceous character of compounds (100% and 95% respectively) but gave poorer results for the fruity character (87% and 74% respectively). Calculations of pOLs (pOL = −log (olfactory threshold expressed in mol/L)) of 45 camphoraceous compounds were also made. When all camphoraceous compounds were used to establish the model, 91% of the pOLs were correctly estimated. When attempts were made to predict the pOL values of 10% of the compounds from a model designed using 90% of the sample, only 74% of the pOLs were correctly estimated.
AbstractList	Structure-odor relationships were established for a sample of 99 aliphatic alcohols using a three-layer backpropagation neural network. The molecular structure was described using a common skeleton with six possible substitutions. Substituents were described using only their van der Waals volumes. The discrimination between fruity and camphoraceous odors of 67 compounds gave good results in classification (100%) and prediction (85%) phases. With the global set, the network correctly classified and predicted the camphoraceous character of compounds (100% and 95% respectively) but gave poorer results for the fruity character (87% and 74% respectively). Calculations of pOLs (pOL = -log (olfactory threshold expressed in mol/L)) of 45 camphoraceous compounds were also made. When all camphoraceous compounds were used to establish the model, 91% of the pOLs were correctly estimated. When attempts were made to predict the pOL values of 10% of the compounds from a model designed using 90% of the sample, only 74% of the pOLs were correctly estimated. Structure−odor relationships were established for a sample of 99 aliphatic alcohols using a three-layer backpropagation neural network. The molecular structure was described using a common skeleton with six possible substitutions. Substituents were described using only their van der Waals volumes. The discrimination between fruity and camphoraceous odors of 67 compounds gave good results in classification (100%) and prediction (85%) phases. With the global set, the network correctly classified and predicted the camphoraceous character of compounds (100% and 95% respectively) but gave poorer results for the fruity character (87% and 74% respectively). Calculations of pOLs (pOL = −log (olfactory threshold expressed in mol/L)) of 45 camphoraceous compounds were also made. When all camphoraceous compounds were used to establish the model, 91% of the pOLs were correctly estimated. When attempts were made to predict the pOL values of 10% of the compounds from a model designed using 90% of the sample, only 74% of the pOLs were correctly estimated. Structure-odor relationships were established for a sample of 99 aliphatic alcohols using a three-layer backpropagation neural network. The molecular structure was described using a common skeleton with six possible substitutions. Substituents were described using only their van der Waals volumes. The discrimination between fruity and camphoraceous odors of 67 compounds gave good results in classification (100%) and prediction (85%) phases. With the global set, the network correctly classified and predicted the camphoraceous character of compounds (100% and 95% respectively) but gave poorer results for the fruity character (87% and 74% respectively). Calculations of pOLs (pOL = -log (olfactory threshold expressed in mol/L)) of 45 camphoraceous compounds were also made. When all camphoraceous compounds were used to establish the model, 91% of the pOLs were correctly estimated. When attempts were made to predict the pOL values of 10% of the compounds from a model designed using 90% of the sample, only 74% of the pOLs were correctly estimated
Author	El Aïdi Cretin, Dominique Chastrette, Maurice
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Cites_doi	10.1002/jctb.5010041105 10.1016/S0003-2670(00)83003-2 10.1021/j100785a001 10.1021/ac00223a006 10.1093/chemse/7.3-4.293 10.1038/323533a0 10.1016/0223-5234(94)90058-2 10.1016/0223-5234(96)88285-7 10.1016/0223-5234(91)90010-K 10.1007/BF01043342 10.1111/j.1749-6632.1964.tb45075.x
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Snippet	Structure−odor relationships were established for a sample of 99 aliphatic alcohols using a three-layer backpropagation neural network. The molecular structure... Structure-odor relationships were established for a sample of 99 aliphatic alcohols using a three-layer backpropagation neural network. The molecular structure...
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SubjectTerms	ALCANFOR ALCOHOLES Alcohols - chemistry ALCOOL ANALISIS DE REDES ANALYSE DE RESEAU APLICACIONES DEL ORDENADOR APPLICATION DES ORDINATEURS CAMPHRE Chemical structures Computerized information storage and retrieval FRUIT FRUTO Humans MATEMATICAS MATHEMATIQUE Molecular Structure Neural Networks (Computer) ODEUR Odorants - analysis Odours OLOR Sensory Thresholds - physiology Smell - physiology TECHNIQUE DE PREVISION TECNICAS DE PREDICCION
Title	Structure−Odor Relationships: Using Neural Networks in the Estimation of Camphoraceous or Fruity Odors and Olfactory Thresholds of Aliphatic Alcohols
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