Gene therapy is expected to play a key role in next-generation medicine by correcting the underlying genetic causes of disease, thereby facilitating a personalised approach to medicine. As this technology can address a wide range of medical conditions, along with finding substantive application within plant genetics, extensive growth in this sector of the biopharmaceutical and agricultural industry are widely predicted. Thus, to enhance the human understanding and application of gene therapy, highly qualified experts of this field are urgently required. ClickGene addressed this need by providing cross-disciplinary training to 14 early-stage researchers (ESRs) in an exciting academia-industry collaboration focused on the development of next-generation gene silencing therapeutics and epigenetic DNA probes.
The main goal of the European Training Network (ETN) ClickGene was to develop new materials and methodologies for site-selective genetic engineering by training researchers within an innovative, multi-disciplinary and entrepreneurial environment so that they can meet the challenges facing future scientific leaders in Europe’s industry. Over the four project years, our multidisciplinary consortium provides world-class training to the ESRs in the areas of synthetic click chemistry, nanotechnology, liposomal drug delivery and nucleic acid (DNA and RNA) chemistry. We generated scientific excellence and technological innovation in the areas of gene silencing and epigenetic base detection by generating 1) unique gene silencing tools that interact with DNA in a fundamentally different way compared with current start-of-art-technology on the market, 2) new liposomal and nanoparticle drug delivery agents, and 3) novel fluorogenic probes for epigenetic base detection in high-throughput PCR assays.
These objectives are important for society as this network has trained the next generation of leading scientists in critical research fields that are required to maintain and enhance EU competitiveness in the areas of gene editing technology, nanotechnology, and nucleic acid chemistry. As such, this network has enhanced biopharmaceutical, biodiagnostic, and agricultural EU societal sectors. Secondly, the scientific and technological advantages for developing new tools for gene editing, epigenetic base detection, and nanoparticle drug delivery are all important for mankind and strive toward improving healthcare and the availability of cutting-edge biomedical diagnostics for European citizens and beyond.