Searching for molecules with similar biological activity: analysis by fingerprint profiling. Godden, J., Xue, L., Stahura, F., & Bajorath, J. Pac.~Symp.~Biocomput., 2000.
abstract   bibtex   
We have recently developed a mini-fingerprint (MFP) representation for small molecules that performs well in database searches for compounds with similar biological activity. The MFP consists of only 54 bit positions that account for numerical ranges of three two-dimensional (2D) descriptors or the presence or absence of defined structural fragments. Here we present an analysis method, termed fingerprint profiling, to systematically compare bit patterns of compounds belonging to different biological activity classes. Some but not all bit positions were variably occupied in seven different activity classes and responsible for the detection of structure-activity differences. The analysis has made it possible to rank bit positions and encoded molecular descriptors according to their importance for our similarity search calculations. Fingerprint profiling can be applied to any keyed bit string representation and should be helpful, for example, to analyze descriptor distributions in large compound databases.
@article{Godden:2000qf,
	Abstract = {We have recently developed a mini-fingerprint (MFP) representation for small molecules that performs well in database searches for compounds with similar biological activity. The MFP consists of only 54 bit positions that account for numerical ranges of three two-dimensional (2D) descriptors or the presence or absence of defined structural fragments. Here we present an analysis method, termed fingerprint profiling, to systematically compare bit patterns of compounds belonging to different biological activity classes. Some but not all bit positions were variably occupied in seven different activity classes and responsible for the detection of structure-activity differences. The analysis has made it possible to rank bit positions and encoded molecular descriptors according to their importance for our similarity search calculations. Fingerprint profiling can be applied to any keyed bit string representation and should be helpful, for example, to analyze descriptor distributions in large compound databases.},
	Author = {Godden, J.W. and Xue, L. and Stahura, F.L. and Bajorath, J.},
	Date-Added = {2012-04-09 12:14:16 -0400},
	Date-Modified = {2012-04-09 12:14:46 -0400},
	Journal = {Pac.~Symp.~Biocomput.},
	Journal-Full = {Pacific Symposium on Biocomputing. Pacific Symposium on Biocomputing},
	Keywords = {fingerprint; joelib},
	Mesh = {Computer-Aided Design; Databases, Factual; Drug Design; Drug Evaluation, Preclinical; Medical Informatics Computing; Pharmacology; Structure-Activity Relationship},
	Pages = {566--575},
	Pmid = {10902204},
	Pst = {ppublish},
	Title = {Searching for molecules with similar biological activity: analysis by fingerprint profiling},
	Year = {2000}}
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