Extended-Connectivity Fingerprints

Citations Over TimeTop 1% of 2010 papers

Abstract

Extended-connectivity fingerprints (ECFPs) are a novel class of topological fingerprints for molecular characterization. Historically, topological fingerprints were developed for substructure and similarity searching. ECFPs were developed specifically for structure-activity modeling. ECFPs are circular fingerprints with a number of useful qualities: they can be very rapidly calculated; they are not predefined and can represent an essentially infinite number of different molecular features (including stereochemical information); their features represent the presence of particular substructures, allowing easier interpretation of analysis results; and the ECFP algorithm can be tailored to generate different types of circular fingerprints, optimized for different uses. While the use of ECFPs has been widely adopted and validated, a description of their implementation has not previously been presented in the literature.

Related Papers

• → LSA: a local-weighted structural alignment tool for pharmaceutical virtual screening(2019)3 cited
• Quality Classification Method for Fingerprint Image Based on Support Vector Machine(2009)
• → FACE RECOGNITION BASED ON GPPBTF AND LBP WITH CLASSIFIER FUSION(2012)
• H.264 Video Authentication Scheme based on Fingerprint Detection(2013)
• Cooperative Learning in English Interpretation Class(2005)