Immunoinformatics is scientific setting that targets the use of mathematical and computational approaches to comprehend, produce, process, and develop immunological data [5]. Since the 1980s, different immunoinformatic tools were developed and used aiming for vaccine design ( Figure 1) [6].As a result of sequencing human genome and other organism, huge amount of immunological data is accumulated. These wealthy data has been deposited in different database. The availability of different useful and user-friendly Web-based computational tools and searchable databases pave the way for predicting potential B, T cell epitopes in protein sequences. The main objective when predicting these epitopes is the determination of the binding affinity of MHC molecules and antigenic peptides.The tools in this field are based on statistical and machine learning system and are used for studying modeling molecular interactions (such as antigen processing and presentation) and also plays a role in defining new hypotheses related to understand the immune system mechanisms [7].The concept of reverse vaccinology is based on selecting specific epitope of interest that are capable of provoking cellular as well as humoral immune response. The peptide candidate could be selected based on several criteria including, sequence conservancy, binding affinity to both MHC classes, allergenicity, etc.Given the high cost and time requirements for new drugs development, vaccines remain as a viable alternative, but there too traditional techniques of live-attenuated or inactivated vaccines have the danger of allergenic reactions and others [3]. The developments in bioinformatics, proteomics, immunogenomics, structural biology and other sciences have spurred the growth of vaccinomics where computer assisted approaches serve to identify suitable peptide targets for eventual development of vaccines. These approaches reducing the workload of experimentalists with higher probability of success. Peptide vaccines have, over the last several years, begun to be looked on as more appropriate alternatives, which are economically affordable, require less time for development and hold the promise for reverse vaccinology
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