eTOXlab, an open source modeling framework for implementing predictive models in production environments

Autor:	Pau Carrió, Manuel Pastor, Oriol López, Ferran Sanz
Rok vydání:	2015
Předmět:	Source code Computer science media_common.quotation_subject Library and Information Sciences computer.software_genre 01 natural sciences Predictive models 03 medical and health sciences Software Confidential compounds Physical and Theoretical Chemistry Web services 030304 developmental biology media_common Graphical user interface computer.programming_language 0303 health sciences Programari lliure QSAR Command-line interface business.industry Serveis web Modeling Open source Python (programming language) Computer Graphics and Computer-Aided Design 0104 chemical sciences Computer Science Applications 010404 medicinal & biomolecular chemistry Workflow Virtual machine Data mining Web service business Software engineering computer
Zdroj:	Recercat. Dipósit de la Recerca de Catalunya instname Journal of Cheminformatics
ISSN:	1758-2946
DOI:	10.1186/s13321-015-0058-6
Popis:	Background Computational models based in Quantitative-Structure Activity Relationship (QSAR) methodologies are widely used tools for predicting the biological properties of new compounds. In many instances, such models are used as a routine in the industry (e.g. food, cosmetic or pharmaceutical industry) for the early assessment of the biological properties of new compounds. However, most of the tools currently available for developing QSAR models are not well suited for supporting the whole QSAR model life cycle in production environments. Results We have developed eTOXlab; an open source modeling framework designed to be used at the core of a self-contained virtual machine that can be easily deployed in production environments, providing predictions as web services. eTOXlab consists on a collection of object-oriented Python modules with methods mapping common tasks of standard modeling workflows. This framework allows building and validating QSAR models as well as predicting the properties of new compounds using either a command line interface or a graphic user interface (GUI). Simple models can be easily generated by setting a few parameters, while more complex models can be implemented by overriding pieces of the original source code. eTOXlab benefits from the object-oriented capabilities of Python for providing high flexibility: any model implemented using eTOXlab inherits the features implemented in the parent model, like common tools and services or the automatic exposure of the models as prediction web services. The particular eTOXlab architecture as a self-contained, portable prediction engine allows building models with confidential information within corporate facilities, which can be safely exported and used for prediction without disclosing the structures of the training series. Conclusions The software presented here provides full support to the specific needs of users that want to develop, use and maintain predictive models in corporate environments. The technologies used by eTOXlab (web services, VM, object-oriented programming) provide an elegant solution to common practical issues; the system can be installed easily in heterogeneous environments and integrates well with other software. Moreover, the system provides a simple and safe solution for building models with confidential structures that can be shared without disclosing sensitive information.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::d4e6cec6bdb9d94d72a42e4fb1285649 https://doi.org/10.1186/s13321-015-0058-6 Zobrazit plný text záznamu Full text from SpringerLink