Western blotting (WB) is an imperative laboratory technique widely used in clinical and biology research for the detection and analysis of proteins in biological samples. It provides with information on the identity, size, and quantity of a target protein, information crucial for research studies involved in disease diagnosis; drug and vaccine development; and basic research, e.g. cancer. Overall, up to 60% of laboratories at research centers and companies private companies worldwide use WB at a daily basis. Due to its widespread application, and the importance of the processes for its use, it is important to obtain reliable data from WB results from which build sound scientific conclusions.
Current methodologies for the analysis of WB results present two major shortcomings:
1) The pipeline is not integrated, i.e. the workflow requires the use of specialized hardware and multiple software to cover the whole process. This aspect increases the total processing time and, therefore, reduces efficiency.
2) The pipeline is not automated, i.e. some key steps in the pipeline demands the direct interaction by the user in the analysis. It may increase the risk of introducing error in the analysis and, therefore, the risk of obtaining biased results that may compromise the quality of the scientific study.
As a consequence, there is a strong need for an integrated, time-efficient, and unbiased pipeline for the data analysis of WB results. A faster approach would allow researchers to obtain a more efficient data analysis, and lead to a better management of the financial resources from research institutions and public budget. Unbiased results are key to develop accurate treatments.
- Project goals:
The major goal for this project is to provide with a new method in order to enhance the data analysis processing of WB results by making use mobile technologies. For the 12-month period we aim at developing a minimal viable product (MVP) ready to be tested by researchers in a real environment. The trial period is essential to obtain feedback useful for the implementation of new features, and accelerate the production of a final product.