Your search keyword '"Heimbach, J."' showing total 4 results

1. JAMI: a Java library for molecular interactions and data interoperability

Author

Sivade (Dumousseau), M., Koch, M., Shrivastava, A., Alonso-López, D., De Las Rivas, J., del-Toro, N., Combe, C. W., Meldal, B. H. M., Heimbach, J., Rappsilber, J., Sullivan, J., Yehudi, Y., and Orchard, S.

Published

2018

2. Encompassing new use cases - level 3.0 of the HUPO-PSI format for molecular interactions

Author

Sivade (Dumousseau), M., Alonso-López, D., Ammari, M., Bradley, G., Campbell, N. H., Ceol, A., Cesareni, G., Combe, C., De Las Rivas, J., del-Toro, N., Heimbach, J., Hermjakob, H., Jurisica, I., Koch, M., Licata, L., Lovering, R. C., Lynn, D. J., Meldal, B. H. M., Micklem, G., Panni, S., Porras, P., Ricard-Blum, S., Roechert, B., Salwinski, L., Shrivastava, A., Sullivan, J., Thierry-Mieg, N., Yehudi, Y., Van Roey, K., and Orchard, S.

Published

2018

3. Encompassing new use cases - level 3.0 of the HUPO-PSI format for molecular interactions

Author

Biotechnology and Biological Sciences Research Council (UK), European Commission, Ontario Research Fund, Canada Research Chairs, Fondation pour la Recherche Médicale, British Heart Foundation, European Research Council, Wellcome Trust, National Institutes of Health (US), Sivade (Dumousseau), M., Alonso-López, D., Ammari, M., Bradley, G., Campbell, N. H, Ceol, A., Cesareni, G., Combe, C. W., De Las Rivas, Javier, Toro, N. del, Heimbach, J., Hermjakob, H., Jurisica, I., Koch, M., Licata, L., Lovering, R. C., Lynn, D. J., Meldal, B. H. M., Micklem, G., Panni, S., Porras, P., Ricard-Blum, S., Roechert, B., Salwinski, L., Shrivastava, A., Sullivan, J., Thierry-Mieg, N., Yehudi, Y., Van Roey, K., Orchard, S., Biotechnology and Biological Sciences Research Council (UK), European Commission, Ontario Research Fund, Canada Research Chairs, Fondation pour la Recherche Médicale, British Heart Foundation, European Research Council, Wellcome Trust, National Institutes of Health (US), Sivade (Dumousseau), M., Alonso-López, D., Ammari, M., Bradley, G., Campbell, N. H, Ceol, A., Cesareni, G., Combe, C. W., De Las Rivas, Javier, Toro, N. del, Heimbach, J., Hermjakob, H., Jurisica, I., Koch, M., Licata, L., Lovering, R. C., Lynn, D. J., Meldal, B. H. M., Micklem, G., Panni, S., Porras, P., Ricard-Blum, S., Roechert, B., Salwinski, L., Shrivastava, A., Sullivan, J., Thierry-Mieg, N., Yehudi, Y., Van Roey, K., and Orchard, S.

Abstract

[Background]: Systems biologists study interaction data to understand the behaviour of whole cell systems, and their environment, at a molecular level. In order to effectively achieve this goal, it is critical that researchers have high quality interaction datasets available to them, in a standard data format, and also a suite of tools with which to analyse such data and form experimentally testable hypotheses from them. The PSI-MI XML standard interchange format was initially published in 2004, and expanded in 2007 to enable the download and interchange of molecular interaction data. PSI-XML2.5 was designed to describe experimental data and to date has fulfilled this basic requirement. However, new use cases have arisen that the format cannot properly accommodate. These include data abstracted from more than one publication such as allosteric/cooperative interactions and protein complexes, dynamic interactions and the need to link kinetic and affinity data to specific mutational changes. [Results]: The Molecular Interaction workgroup of the HUPO-PSI has extended the existing, well-used XML interchange format for molecular interaction data to meet new use cases and enable the capture of new data types, following extensive community consultation. PSI-MI XML3.0 expands the capabilities of the format beyond simple experimental data, with a concomitant update of the tool suite which serves this format. The format has been implemented by key data producers such as the International Molecular Exchange (IMEx) Consortium of protein interaction databases and the Complex Portal. [Conclusions]: PSI-MI XML3.0 has been developed by the data producers, data users, tool developers and database providers who constitute the PSI-MI workgroup. This group now actively supports PSI-MI XML2.5 as the main interchange format for experimental data, PSI-MI XML3.0 which additionally handles more complex data types, and the simpler, tab-delimited MITAB2.5, 2.6 and 2.7 for rapid parsing and dow

Published

2018

4. JAMI: a Java library for molecular interactions and data interoperability

Author

European Commission, Biotechnology and Biological Sciences Research Council (UK), Wellcome Trust, Sivade (Dumousseau), M., Koch, M., Shrivastava, A., Alonso-López, D., De Las Rivas, Javier, Toro, N. del, Combe, C. W., Meldal, B. H. M., Heimbach, J., Rappsilber, J., Sullivan, J., Yehudi, Y., Orchard, S., European Commission, Biotechnology and Biological Sciences Research Council (UK), Wellcome Trust, Sivade (Dumousseau), M., Koch, M., Shrivastava, A., Alonso-López, D., De Las Rivas, Javier, Toro, N. del, Combe, C. W., Meldal, B. H. M., Heimbach, J., Rappsilber, J., Sullivan, J., Yehudi, Y., and Orchard, S.

Abstract

[Background]: A number of different molecular interactions data download formats now exist, designed to allow access to these valuable data by diverse user groups. These formats include the PSI-XML and MITAB standard interchange formats developed by Molecular Interaction workgroup of the HUPO-PSI in addition to other, use-specific downloads produced by other resources. The onus is currently on the user to ensure that a piece of software is capable of read/writing all necessary versions of each format. This problem may increase, as data providers strive to meet ever more sophisticated user demands and data types. [Results]: A collaboration between EMBL-EBI and the University of Cambridge has produced JAMI, a single library to unify standard molecular interaction data formats such as PSI-MI XML and PSI-MITAB. The JAMI free, open-source library enables the development of molecular interaction computational tools and pipelines without the need to produce different versions of software to read different versions of the data formats. [Conclusion]: Software and tools developed on top of the JAMI framework are able to integrate and support both PSI-MI XML and PSI-MITAB. The use of JAMI avoids the requirement to chain conversions between formats in order to reach a desired output format and prevents code and unit test duplication as the code becomes more modular. JAMI’s model interfaces are abstracted from the underlying format, hiding the complexity and requirements of each data format from developers using JAMI as a library.

Published

2018