Validation of biomacromolecular structures determined by NMR spectroscopy and deposited in the Protein Data Bank

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NMR structures in the Protein Data Bank (PDB) contain errors that often go undetected. The errors originate from limited data quality and quantity and complex computational procedures, as well as inherent dynamics of the biomacromolecules. There is currently no extensive mandatory validation of NMR structural data before deposition to the PDB and BMRB, nor is there a complete understanding of the limitations of current validation servers (CING and PSVS).

The clear need for improved NMR-derived biomacromolecular structures forms the basis of the four objectives for this proposal:

1. To implement the recommendations of the wwPDB NMR Validation Task Force (VTF) into an integrated software pipeline. This work will build upon the X-ray validation pipeline currently under development at PDBe. The pipeline will allow for validation of structures prior to deposition to the PDB and BMRB and will be used by all wwPDB partners. In addition, the pipeline will be used to assess the quality of all NMR structures in the PDB and the results will be made freely available.
2. To critically assess the utility, scope and limitations of current NMR validation tools. This work will build on the results of Objective 1 as well as prior research in the Vuister group using the CING validation software.
3. To develop new algorithms, procedures and tools for validation of high-resolution NMR structures, addressing issues such as dynamics and sparse data.
4. To disseminate validation-related information as well as newly developed validation methods for use by the wider scientific community. This will include development of new visualisation services at PDBe to help expert and non-expert users assess the quality of any NMR structure in the PDB. It will also include development of new publicly-available validation tools at Leicester.

PDBe will be the scientific lead for work on Objectives 1 and 4, and Leicester for work on Objectives 2 and 3.

Structure determination and the study of interactions using biomacromolecular NMR techniques is still a rapidly growing field, with many new applications being developed all the time. Both automation and integrated pipelines have gradually changed the structure determination process from a highly expert undertaking to a more routine tool for biological research, albeit one that still requires dedicated technical expertise.

The current proposal addresses an important aspect of the structure determination process: validation of the resulting models in relation to both prior knowledge (chemical, physical and biological) and specific experimental data collected on a sample containing the molecule(s) of interest. Careful validation often allows detection and remediation of potential problems commonly encountered for NMR-derived structures. As a result, more reliable NMR structures will be obtained. We expect that the present project will contribute significantly to (a) quality improvement of all biomacromolecular NMR structures to be deposited in the PDB in the future, and (b) awareness of the quality of all existing NMR structures in the PDB (13% of the archive). These structures will then form a better starting point for understanding their biology, for protein engineering, homology modeling and drug design. The results of the project will strengthen the UK scientific innovative capacity and fit the BBSRC research priority "Technology development for bioscience". The users will include researchers at academic and government institutions, industrial laboratories as well as students and teachers with an interest in structural biology.

The tools, information and resources produced in this project will become widely available, as both partners have extensive experience in the development of web-based services. It is the mission of PDBe to curate newly deposited structures and to provide structural data and advanced services and resources to the worldwide scientific and industrial community. Their web servers, part of the EBI data centres, process millions of requests every month. The NMR group at the University of Leicester has been at the forefront in the development of validation tools. Their dedicated iCing validation server will be expanded to accommodate the new tools. The server already performs over 1000 validation runs on a yearly basis with requests originating from all continents, except Antarctica, and demand is still increasing. User input will provide important feedback regarding the general applicability and usability of our tools.

Both applicants participate in many international collaborations. PDBe is a partner in the Worldwide PDB consortium and EMDataBank and has participated in many EU-funded projects. While previously located in Nijmegen, the NMR-validation research program now at the University of Leicester was and is a participant in many EU-funded NMR-oriented projects, such as WeNMR. The latter effort is aimed at the development of a virtual research community (VRC) that will strengthen biomacromolecular NMR as a tool in biological research. The proposed research will both benefit from and strengthen this EU effort, as the WeNMR VRC will be an excellent platform for the dissemination of some of the results of the project.

The post-doctoral researchers for whom support is requested here, will work in an international and scientifically excellent research environment. The project will require them to utilise and develop their technical, scientific and personal skills. It is expected that the interactions within the respective groups in Hinxton, Leicester and Nijmegen will also raise awareness of the project with other post-doctoral researchers and graduate students active in the structural biology field. In fact, these researchers comprise an important target group of users of the tools that will be developed in the project.