Your search keyword '"Michel, Pierre-André"' showing total 30 results

1. A large collection of bioinformatics question-query pairs over federated knowledge graphs: methodology and applications

Author

Bolleman, Jerven, Emonet, Vincent, Altenhoff, Adrian, Bairoch, Amos, Blatter, Marie-Claude, Bridge, Alan, Duvaud, Severine, Gasteiger, Elisabeth, Kuznetsov, Dmitry, Moretti, Sebastien, Michel, Pierre-Andre, Morgat, Anne, Pagni, Marco, Redaschi, Nicole, Zahn-Zabal, Monique, de Farias, Tarcisio Mendes, and Sima, Ana Claudia

Subjects

Computer Science - Databases, Computer Science - Artificial Intelligence, Computer Science - Information Retrieval

Abstract

Background. In the last decades, several life science resources have structured data using the same framework and made these accessible using the same query language to facilitate interoperability. Knowledge graphs have seen increased adoption in bioinformatics due to their advantages for representing data in a generic graph format. For example, yummydata.org catalogs more than 60 knowledge graphs accessible through SPARQL, a technical query language. Although SPARQL allows powerful, expressive queries, even across physically distributed knowledge graphs, formulating such queries is a challenge for most users. Therefore, to guide users in retrieving the relevant data, many of these resources provide representative examples. These examples can also be an important source of information for machine learning, if a sufficiently large number of examples are provided and published in a common, machine-readable and standardized format across different resources. Findings. We introduce a large collection of human-written natural language questions and their corresponding SPARQL queries over federated bioinformatics knowledge graphs (KGs) collected for several years across different research groups at the SIB Swiss Institute of Bioinformatics. The collection comprises more than 1000 example questions and queries, including 65 federated queries. We propose a methodology to uniformly represent the examples with minimal metadata, based on existing standards. Furthermore, we introduce an extensive set of open-source applications, including query graph visualizations and smart query editors, easily reusable by KG maintainers who adopt the proposed methodology. Conclusions. We encourage the community to adopt and extend the proposed methodology, towards richer KG metadata and improved Semantic Web services.

Published

2024

2. Designing an Optimal Expansion Method to Improve the Recall of a Genomic Variant Curation-Support Service

Author

Mottaz, Anaïs, primary, Pasche, Emilie, additional, Michel, Pierre-André, additional, Mottin, Luc, additional, Teodoro, Douglas, additional, and Ruch, Patrick, additional

Published

2022

3. Comparing Sequence-Based and Literature-Based Pathogenicity Scoring Methods for Human Variants

Author

Mottin, Luc, Naderi, Nona, Mottaz, Anaïs, Michel, Pierre André, Been, Gerieke, Johansson, Lennart, Swertz, Morris, Stubbs, Andrew, Pasche, Emilie, Gobeill, Julien, Ruch, Patrick, Mottin, Luc, Naderi, Nona, Mottaz, Anaïs, Michel, Pierre André, Been, Gerieke, Johansson, Lennart, Swertz, Morris, Stubbs, Andrew, Pasche, Emilie, Gobeill, Julien, and Ruch, Patrick

Abstract

Assessing the pathogenicity of genetic variants is a critical aspect of genomic medicine and precision healthcare. Over the last decades, the identification of genetic variants and their characterization has become simpler (advent of high-throughput sequencing technologies, analysis, and visualization support tools, etc.). However, the quality of assessments to distinguish benign from pathogenic variants is critical to inform clinical decision-making and improve patient outcomes. In this article, we investigate the relationships using correlation tests between the characterization of genetic variants in the literature and their pathogenicity scores computed by two state-of-the-art assessment tools (SIFT and PolyPhen-2).

Published

2024

4. From SIBiLS to Biodiversity PMC: Foundations for the One Health Library

Author

Pasche, Emilie, primary, Gobeill, Julien, additional, Agosti, Donat, additional, Penev, Lyubomir, additional, Groom, Quentin, additional, Georgiev, Teodor, additional, Gaillac, Esteban, additional, Flament, Alexandre, additional, Caucheteur, Déborah, additional, Michel, Pierre-André, additional, and Ruch, Patrick, additional

Published

2023

5. Assessing the use of supplementary materials to improve genomic variant discovery

Author

Pasche, Emilie, primary, Mottaz, Anaïs, additional, Gobeill, Julien, additional, Michel, Pierre-André, additional, Caucheteur, Déborah, additional, Naderi, Nona, additional, and Ruch, Patrick, additional

Published

2023

6. Variomes: a high recall search engine to support the curation of genomic variants

Author

Pasche, Emilie, primary, Mottaz, Anaïs, additional, Caucheteur, Déborah, additional, Gobeill, Julien, additional, Michel, Pierre-André, additional, and Ruch, Patrick, additional

Published

2022

7. The neXtProt knowledgebase on human proteins: current status

Author

Gaudet, Pascale, Michel, Pierre-André, Zahn-Zabal, Monique, Cusin, Isabelle, Duek, Paula D., Evalet, Olivier, Gateau, Alain, Gleizes, Anne, Pereira, Mario, Teixeira, Daniel, Zhang, Ying, Lane, Lydie, and Bairoch, Amos

Published

2015

8. The neXtProt peptide uniqueness checker: a tool for the proteomics community

Author

Schaeffer, Mathieu, Gateau, Alain, Teixeira, Daniel, Michel, Pierre-André, Zahn-Zabal, Monique, Lane, Lydie, Hancock, John, Schaeffer, Mathieu, Gateau, Alain, Teixeira, Daniel, Michel, Pierre-André, Zahn-Zabal, Monique, Lane, Lydie, and Hancock, John

Abstract

Summary The neXtProt peptide uniqueness checker allows scientists to define which peptides can be used to validate the existence of human proteins, i.e. map uniquely versus multiply to human protein sequences taking into account isobaric substitutions, alternative splicing and single amino acid variants. Availability and implementation The pepx program is available at https://github.com/calipho-sib/pepx and can be launched from the command line or through a cgi web interface. Indexing requires a sequence file in FASTA format. The peptide uniqueness checker tool is freely available on the web at https://www.nextprot.org/tools/peptide-uniqueness-checker and from the neXtProt API at https://api.nextprot.org/.

Published

2021

9. Variomes: a high recall search engine to support the curation of genomic variants

Author

Pasche, Emilie, primary, Mottaz, Anaïs, additional, Caucheteur, Déborah, additional, Gobeill, Julien, additional, Michel, Pierre-André, additional, and Ruch, Patrick, additional

Published

2021

10. Text-Mining Services of the Swiss Variant Interpretation Platform for Oncology

Author

Caucheteur, Déborah, Gobeill, Julien, Mottaz, Anaïs, Pasche, Emilie, Michel, Pierre-André, Mottin, Luc, Stekhoven, Daniel J., Barbié, Valérie, Ruch, Patrick, Pape-Haugaard, Louise B., Lovis, Christian, Cort Madsen, Inge, Weber, Patrick, Hostrup Nielsen, Per, and Scott, Philip

Subjects

Precision medicine, Literature, Variant, Terminology, Text-mining

Abstract

The Swiss Variant Interpretation Platform for Oncology is a centralized, joint and curated database for clinical somatic variants piloted by a board of Swiss healthcare institutions and operated by the SIB Swiss Institute of Bioinformatics. To support this effort, SIB Text Mining designed a set of text analytics services. This report focuses on three of those services. First, the automatic annotations of the literature with a set of terminologies have been performed, resulting in a large annotated version of MEDLINE and PMC. Second, a generator of variant synonyms for single nucleotide variants has been developed using publicly available data resources, as well as patterns of non-standard formats, often found in the literature. Third, a literature ranking service enables to retrieve a ranked set of MEDLINE abstracts given a variant and optionally a diagnosis. The annotation of MEDLINE and PMC resulted in a total of respectively 785,181,199 and 1,156,060,212 annotations, which means an average of 26 and 425 annotations per abstract and full-text article. The generator of variant synonyms enables to retrieve up to 42 synonyms for a variant. The literature ranking service reaches a precision (P10) of 63%, which means that almost two-thirds of the top-10 returned abstracts are judged relevant. Further services will be implemented to complete this set of services, such as a service to retrieve relevant clinical trials for a patient and a literature ranking service for full-text articles., Studies in Health Technology and Informatics, 270, ISSN:0926-9630, ISSN:1879-8365, Digital Personalized Health and Medicine, ISBN:978-1-64368-082-8, ISBN:978-1-64368-083-5

Published

2020

11. SIB Literature Services: RESTful customizable search engines in biomedical literature, enriched with automatically mapped biomedical concepts

Author

Gobeill, Julien, primary, Caucheteur, Déborah, primary, Michel, Pierre-André, primary, Mottin, Luc, primary, Pasche, Emilie, primary, and Ruch, Patrick, primary

Published

2020

12. The Feature-Viewer: a visualization tool for positional annotations on a sequence

Author

Paladin, Lisanna, primary, Schaeffer, Mathieu, primary, Gaudet, Pascale, primary, Zahn-Zabal, Monique, primary, Michel, Pierre-André, primary, Piovesan, Damiano, primary, Tosatto, Silvio C E, primary, and Bairoch, Amos, primary

Published

2020

13. The neXtProt knowledgebase in 2020: data, tools and usability improvements

Author

Zahn-Zabal, Monique, primary, Michel, Pierre-André, additional, Gateau, Alain, additional, Nikitin, Frédéric, additional, Schaeffer, Mathieu, additional, Audot, Estelle, additional, Gaudet, Pascale, additional, Duek, Paula D, additional, Teixeira, Daniel, additional, Rech de Laval, Valentine, additional, Samarasinghe, Kasun, additional, Bairoch, Amos, additional, and Lane, Lydie, additional

Published

2019

14. The neXtProt knowledgebase on human proteins: current status

Author

Gaudet, Pascale, Michel, Pierre-André, Zahn-Zabal, Monique, Cusin, Isabelle, Duek, Paula D., Evalet, Olivier, Gateau, Alain, Gleizes, Anne, Pereira, Mario, Teixeira, Daniel, Zhang, Ying, Lane, Lydie, and Bairoch, Amos

Abstract

neXtProt (http://www.nextprot.org) is a human protein-centric knowledgebase developed at the SIB Swiss Institute of Bioinformatics. Focused solely on human proteins, neXtProt aims to provide a state of the art resource for the representation of human biology by capturing a wide range of data, precise annotations, fully traceable data provenance and a web interface which enables researchers to find and view information in a comprehensive manner. Since the introductory neXtProt publication, significant advances have been made on three main aspects: the representation of proteomics data, an extended representation of human variants and the development of an advanced search capability built around semantic technologies. These changes are presented in the current neXtProt update

Published

2017

15. The neXtProt knowledgebase in 2020: data, tools and usability improvements.

Author

Zahn-Zabal, Monique, Michel, Pierre-André, Gateau, Alain, Nikitin, Frédéric, Schaeffer, Mathieu, Audot, Estelle, Gaudet, Pascale, Duek, Paula D, Teixeira, Daniel, Rech de Laval, Valentine, Samarasinghe, Kasun, Bairoch, Amos, and Lane, Lydie

Published

2020

16. Accelerating annotation of articles via automated approaches: evaluation of the neXtA5 curation-support tool by neXtProt

Author

Britan, Aurore, primary, Cusin, Isabelle, additional, Hinard, Valérie, additional, Mottin, Luc, additional, Pasche, Emilie, additional, Gobeill, Julien, additional, Rech de Laval, Valentine, additional, Gleizes, Anne, additional, Teixeira, Daniel, additional, Michel, Pierre-André, additional, Ruch, Patrick, additional, and Gaudet, Pascale, additional

Published

2018

17. The neXtProt peptide uniqueness checker: a tool for the proteomics community

Author

Schaeffer, Mathieu, primary, Gateau, Alain, additional, Teixeira, Daniel, additional, Michel, Pierre-André, additional, Zahn-Zabal, Monique, additional, and Lane, Lydie, additional

Published

2017

18. Triage by ranking to support the curation of protein interactions

Author

Mottin, Luc, primary, Pasche, Emilie, additional, Gobeill, Julien, additional, Rech de Laval, Valentine, additional, Gleizes, Anne, additional, Michel, Pierre-André, additional, Bairoch, Amos, additional, Gaudet, Pascale, additional, and Ruch, Patrick, additional

Published

2017

19. The neXtProt knowledgebase on human proteins: 2017 update

Author

Gaudet, Pascale, primary, Michel, Pierre-André, additional, Zahn-Zabal, Monique, additional, Britan, Aurore, additional, Cusin, Isabelle, additional, Domagalski, Marcin, additional, Duek, Paula D., additional, Gateau, Alain, additional, Gleizes, Anne, additional, Hinard, Valérie, additional, Rech de Laval, Valentine, additional, Lin, JinJin, additional, Nikitin, Frederic, additional, Schaeffer, Mathieu, additional, Teixeira, Daniel, additional, Lane, Lydie, additional, and Bairoch, Amos, additional

Published

2016

20. neXtA5: accelerating annotation of articles via automated approaches in neXtProt

Author

Mottin, Luc, primary, Gobeill, Julien, additional, Pasche, Emilie, additional, Michel, Pierre-André, additional, Cusin, Isabelle, additional, Gaudet, Pascale, additional, and Ruch, Patrick, additional

Published

2016

21. The neXtProt knowledgebase on human proteins: 2017 update.

Author

Gaudet, Pascale, Michel, Pierre-André, Zahn-Zabal, Monique, Britan, Aurore, Cusin, Isabelle, Domagalski, Marcin, Duek, Paula D., Gateau, Alain, Gleizes, Anne, Hinard, Valérie, de Laval, Valentine Rech, Jin Jin Lin, Nikitin, Frederic, Schaeffer, Mathieu, Teixeira, Daniel, Lane, Lydie, and Bairoch, Amos

Published

2017

22. neXtA5: accelerating annotation of articles via automated approaches in neXtProt.

Author

Mottin, Luc, Gobeill, Julien, Pasche, Emilie, Michel, Pierre-André, Cusin, Isabelle, Gaudet, Pascale, and Ruch, Patrick

Subjects

ACCESS control of databases, GENE ontology, MOLECULAR dynamics, ANNOTATIONS, WEB services

Abstract

The rapid increase in the number of published articles poses a challenge for curated databases to remain up-to-date. To help the scientific community and database curators deal with this issue, we have developed an application, neXtA5, which prioritizes the literature for specific curation requirements. Our system, neXtA5, is a curation service composed of three main elements. The first component is a named-entity recognition module, which annotates MEDLINE over some predefined axes. This report focuses on three axes: Diseases, the Molecular Function and Biological Process sub-ontologies of the Gene Ontology (GO). The automatic annotations are then stored in a local database, BioMed, for each annotation axis. Additional entities such as species and chemical compounds are also identified. The second component is an existing search engine, which retrieves the most relevant MEDLINE records for any given query. The third component uses the content of BioMed to generate an axis-specific ranking, which takes into account the density of named-entities as stored in the Biomed database. The two ranked lists are ultimately merged using a linear combination, which has been specifically tuned to support the annotation of each axis. The fine-tuning of the coefficients is formally reported for each axis-driven search. Compared with PubMed, which is the system used by most curators, the improvement is the following:þ231% for Diseases,þ236% for Molecular Functions andþ3153% for Biological Process when measuring the precision of the topreturned PMID (P0 or mean reciprocal rank). The current search methods significantly improve the search effectiveness of curators for three important curation axes. Further experiments are being performed to extend the curation types, in particular protein-protein interactions, which require specific relationship extraction capabilities. In parallel, userfriendly interfaces powered with a set of JSON web services are currently being implemented into the neXtProt annotation pipeline. [ABSTRACT FROM AUTHOR]

Published

2016

23. Morphosemantems Decomposition and Semantic Representation to Allow Fast and Efficient Natural Language Recognition

Author

Lovis, Christian, Baud, Robert, Michel, Pierre-André, and Scherrer, Jean-Raoul

Subjects

Papers Presented as Posters

Published

1997

24. Natural Language Processing and Clinical Support to Improve the Quality of Reimbursement Claim Databases

Author

Lovis, Christian, Gaspoz, Jean-Michel, Baud, Robert, Michel, Pierre-André, and Scherrer, Jean-Raoul

Subjects

Posters

Published

1996

25. A survey of standardised drug syringe label use in European anaesthesiology departments

Author

Wickboldt, Nadine, primary, Balzer, Felix, additional, Goncerut, Jérôme, additional, Michel, Pierre-André, additional, Staender, Sven, additional, Kinnaer, Raf, additional, Boemke, Willehad, additional, Kastrup, Marc, additional, Spies, Claudia, additional, and Walder, Bernhard, additional

Published

2012

26. The neXtProt peptide uniqueness checker: a tool for the proteomics community

Author

Schaeffer, Mathieu, Gateau, Alain, Teixeira, Daniel, Michel, Pierre-André, Zahn-Zabal, Monique, Lane, Lydie, Hancock, John, Schaeffer, Mathieu, Gateau, Alain, Teixeira, Daniel, Michel, Pierre-André, Zahn-Zabal, Monique, Lane, Lydie, and Hancock, John

Abstract

Summary The neXtProt peptide uniqueness checker allows scientists to define which peptides can be used to validate the existence of human proteins, i.e. map uniquely versus multiply to human protein sequences taking into account isobaric substitutions, alternative splicing and single amino acid variants. Availability and implementation The pepx program is available at https://github.com/calipho-sib/pepx and can be launched from the command line or through a cgi web interface. Indexing requires a sequence file in FASTA format. The peptide uniqueness checker tool is freely available on the web at https://www.nextprot.org/tools/peptide-uniqueness-checker and from the neXtProt API at https://api.nextprot.org/.

27. The neXtProt knowledgebase on human proteins: current status

Author

Gaudet, Pascale, Michel, Pierre-André, Zahn-Zabal, Monique, Cusin, Isabelle, Duek, Paula D., Evalet, Olivier, Gateau, Alain, Gleizes, Anne, Pereira, Mario, Teixeira, Daniel, Zhang, Ying, Lane, Lydie, Bairoch, Amos, Gaudet, Pascale, Michel, Pierre-André, Zahn-Zabal, Monique, Cusin, Isabelle, Duek, Paula D., Evalet, Olivier, Gateau, Alain, Gleizes, Anne, Pereira, Mario, Teixeira, Daniel, Zhang, Ying, Lane, Lydie, and Bairoch, Amos

Abstract

neXtProt (http://www.nextprot.org) is a human protein-centric knowledgebase developed at the SIB Swiss Institute of Bioinformatics. Focused solely on human proteins, neXtProt aims to provide a state of the art resource for the representation of human biology by capturing a wide range of data, precise annotations, fully traceable data provenance and a web interface which enables researchers to find and view information in a comprehensive manner. Since the introductory neXtProt publication, significant advances have been made on three main aspects: the representation of proteomics data, an extended representation of human variants and the development of an advanced search capability built around semantic technologies. These changes are presented in the current neXtProt update

28. Comparing Sequence-Based and Literature-Based Pathogenicity Scoring Methods for Human Variants.

Author

Mottin L, Naderi N, Mottaz A, Michel PA, Been G, Johansson L, Swertz M, Stubbs A, Pasche E, Gobeill J, and Ruch P

Subjects

Humans, Genetic Predisposition to Disease, Sequence Analysis, DNA, DNA Mutational Analysis, Genetic Variation

Abstract

Assessing the pathogenicity of genetic variants is a critical aspect of genomic medicine and precision healthcare. Over the last decades, the identification of genetic variants and their characterization has become simpler (advent of high-throughput sequencing technologies, analysis, and visualization support tools, etc.). However, the quality of assessments to distinguish benign from pathogenic variants is critical to inform clinical decision-making and improve patient outcomes. In this article, we investigate the relationships using correlation tests between the characterization of genetic variants in the literature and their pathogenicity scores computed by two state-of-the-art assessment tools (SIFT and PolyPhen-2).

Published

2024

29. Designing an Optimal Expansion Method to Improve the Recall of a Genomic Variant Curation-Support Service.

Author

Mottaz A, Pasche E, Michel PA, Mottin L, Teodoro D, and Ruch P

Subjects

Databases, Factual, Genomics

Abstract

The importance of genomic data for health is rapidly growing but accessing and gathering information about variants from different sources is hindered by highly heterogeneous representations of variants, as outlined by clinical associations (AMP/ASCO/CAP) in their recommendations. To enable a smooth and effective retrieval of variant-containing documents from different resources, we developed a tool (https://goldorak.hesge.ch/synvar/) that generates for any given SNP - including variant not present in existing databases - its corresponding description at the genome, transcript and protein levels. It provides variant descriptions in the HGVS format as well as in many non-standard formats found in the literature along with database identifiers. We present the SynVar service and evaluate its impact on the recall of a genomic variant curation-support service. Using SynVar to search variants in the literature enables to increase the recall by +133.8% without a strong impact on precision (i.e. 93%).

Published

2022

30. Text-Mining Services of the Swiss Variant Interpretation Platform for Oncology.

Author

Caucheteur D, Gobeill J, Mottaz A, Pasche E, Michel PA, Mottin L, Stekhoven DJ, Barbié V, and Ruch P

Subjects

Abstracting and Indexing, Humans, MEDLINE, Switzerland, Computational Biology, Data Mining

Abstract

The Swiss Variant Interpretation Platform for Oncology is a centralized, joint and curated database for clinical somatic variants piloted by a board of Swiss healthcare institutions and operated by the SIB Swiss Institute of Bioinformatics. To support this effort, SIB Text Mining designed a set of text analytics services. This report focuses on three of those services. First, the automatic annotations of the literature with a set of terminologies have been performed, resulting in a large annotated version of MEDLINE and PMC. Second, a generator of variant synonyms for single nucleotide variants has been developed using publicly available data resources, as well as patterns of non-standard formats, often found in the literature. Third, a literature ranking service enables to retrieve a ranked set of MEDLINE abstracts given a variant and optionally a diagnosis. The annotation of MEDLINE and PMC resulted in a total of respectively 785,181,199 and 1,156,060,212 annotations, which means an average of 26 and 425 annotations per abstract and full-text article. The generator of variant synonyms enables to retrieve up to 42 synonyms for a variant. The literature ranking service reaches a precision (P10) of 63%, which means that almost two-thirds of the top-10 returned abstracts are judged relevant. Further services will be implemented to complete this set of services, such as a service to retrieve relevant clinical trials for a patient and a literature ranking service for full-text articles.

Published

2020