Abstract
Background Vaccines development in this millennium started by the milestone work on Neisseria meningitidis B, reporting the invention of Reverse Vaccinology (RV), which allows to identify vaccine candidates (VCs) by screening bacterial pathogens genome or proteome through computational analyses. When NERVE (New Enhanced RV Environment), the first RV software integrating tools to perform the selection of VCs, was released, it prompted further development in the field. However, the problem-solving potential of most, if not all, RV programs is still largely unexploited by experimental vaccinologists that impaired by somehow difficult interfaces, requiring bioinformatic skills.
Results We report here on the development and release of NERVE 2.0 (available at: https://nerve-bio.org) which keeps the original integrative and modular approach of NERVE, while showing higher predictive performance than its previous version and other web-RV programs (Vaxign and Vaxijen). We renewed some of its modules and added innovative ones, such as Loop Razor, to recover fragments of promising vaccine candidates or epitopepredict for the epitope prediction binding affinities and population coverage. Along with two newly built AI (Artificial Intelligence)-based models: ESPAAN and Virulent. To improve user-friendliness, NERVE was shifted to a tutored, web-based interface, with a noSQL-database to consent the user to submit, obtain and retrieve analysis results at any moment.
Conclusions With its redesigned and updated environment, NERVE 2.0 allows customisable and refinable bacterial protein vaccine analyses to all different kinds of users.
Competing Interest Statement
The authors have declared no competing interest.
List of abbreviations
- RV
- Reverse Vaccinology
- VC
- Vaccine candidate
- PVC
- Protein vaccine candidate
- ML
- Machine learning
- AI
- Artificial Intelligence
- ANN
- Artificial Neural Network
- PAD
- Probability of being an adhesin
- TMDn
- Number of transmembrane helices domains
- OMP
- Outer membrane protein
- BPA
- Bacterial protective antigen
- MHC
- Major Histocompatibility Complex
- SP
- Shared peptide
- PVR
- Probability of being a virulence factor
- HLA
- Human Leukocyte Antigen
- FPR
- False Positive Rate
- FNR
- False Negative Rate
- TNR
- True Negative Rate
- FDR
- False Discovery Rate
- NPV
- Negative Predictive Value