While standard biochemistry and molecular biological techniques suffice for much of our work, several of our studies require sophisticated state-of-the-art equipment that is made available to us at the California NanoSystems Institute (CNSI) here at UCLA or in the laboratories of our collaborators.
in vitro self-assembly
In our general introduction of "In Vivo Self Amplifying RNA research projects", we emphasized how important it is to mimic the natural use of RNA replicons by a wide range of positive-strand RNA viruses, for purposes of high-level protein expression. We featured the particular case of Nodamura virus, with its two-molecule genome consisting of RNA1 coding for the RNA replicase (RdRp) and RNA2 coding for the capsid protein. One way to use this system for delivery of genes of interest (GOIs) is to simply insert the GOI into the end of RNA1, immediately following a self-cleaving proteolytic sequence, so that the GOI RNA is replicated along with RNA1 and so that its gene product – the desired therapeutic or reporter protein – will be cleaved in functional form from the RdRp. We have done this using EYFP as the reporter gene.
Virus self-assembly, Cryo EM, nanoparticle synthesis, large RNA structure