Team:Freiburg/Project/application
From 2013.igem.org
Application of our uniCAS toolkit
Overview
We did not only ask several biology & medicine experts what they have in mind to use our toolkit for, but searched for application ideas ourselves. If you are interested, reat our texts below to see what we've come up with!
Application Ideas |
Stem Cell Reprogramming
Notably in 2012, the Nobelprize for Medicine was awarded to Shinya Yamanaka and John Burdon, two outstanding experts and pionieers in stem cell research. In a 2006 and 2007 Cell paper, Yamanaka and his colleagues described an approach to reprogram somatic fibroblast cells of both mice and humans to what they termed "induced Pluripotent Stem Cells" (iPSC). In their precise methodoloy, the Japanese research group was able to define four essential transcription factors in early embryonic development - Oct4, Sox2, Kif4 and c-Myc. Under exogenously and combinatorial retroviral integration, these were shown to enable dedifferentiation of mature cells in certain tissues.
However, the techniques set up by Yamanaka et al. have not passed certain constraints: Firstly, dedifferentiation rates of their cells did not exceed numbers beyond 0.1% of the original fibroblast population. Furthermore, epigenomic and transcriptomic comparisons between iPSC clones and truely Embryonic Stem Cells (ESC) revealed that the dedifferentiation profile of the obtained pluripotent cells have been at least questionable. The fact that combinatorial transcription factor introduction into somatic cells strictly relied on viral integration also gave significance to serious secondary disadvantages of the method - by hardly controllable target randomness of the utilized viral integrase, the risk of carcinogenic mutations or disruptions of vital host housekeeping genes has lastly become apparent.
“… tools such as dCas9 or TAL effectors definitely provide a first glance onto the medicine of tomorrow …” ( Prof. Dr. Peter Stäheli ). | |