De la Cruz:Research
DNA transfer allows bacterial evolution and adaptation to the changing environment. This mechanism is used for the transfer of antibiotic resistance genes being a huge health problem. Thus, some pathogenic bacteria are immune to the actual drugs and this resistance is spreading in a dangerous and alarming way. The problem is mainly important in hospitals where the constant use of antibiotics promotes the generation of resistant strains. Only in the USA, there are 2 million cases of hospital infections per year, 70,000 of which are lethal. The propagation of the infections is a growing threat not just for the patients, but for the hospital workers. The economic expense is also incredibly high with up to ten thousand million USD only in the USA. Regarding DNA transfer by bacterial conjugation, the protein involved in the DNA transfer initiation (relaxase) is a key component in the process. Thus, a detailed knowledge of the biochemistry of the reaction and the three dimensional structure of the relaxase could be the way for the finding of new DNA transfer inhibitors. This work could help the design of new drugs that could prevent that the bacteria become resistant by the inhibition of the relaxase function.
Production of Omega-3 enriched triacylglycerides in recombinant bacteria
The commercialisation of triglycerides (TAG) enriched in Omega-3 fatty acids is increasing nowadays, as much for human consumption due to the change produced in the nutritional habits, as for additive in aquaculture. These TAG3 have been usually obtained from fish oil and, recently, from unicellular algae. Thus, it could be really interesting to have bacterial strains able to express triglycerides enriched in the fatty acid of interest in a simple and cheap way.
To analyze the activity of TrwB, we are going to apply an emerging technique: nanotechnology, which makes possible single-molecule observation and manipulation. This technique will allow us to analyze in detail the DNA translocation process on TrwB and estimate the velocity and efficiency of this bionanomachine. Together with a biochemical and structural characterization of the protein, TrwB will be reconstituted into liposomes, a widely used vector in genetic therapy, to carry out DNA transport experiments through lipidic membranes. Reproduction of TrwB activity in vitro will constitute an important step for future biotechnological applications, such as DNA injection into animal cells for therapeutic purposes.