To counteract this effect we envision the use of quorum sensing that activates Cry toxin production only when there is a large quantity of BeeT present. However, these toxins are also harmful to our chassis, resulting in a reduction of toxin production when it is needed to kill the mites. What is the best application strategy for BeeT?įor the final product, BeeT, we intend to use toxins produced by Bacillus thuringiensis, also called Cry toxins.Will BeeT be capable of surviving in sugar water?.What are important parameters for the optogenetic killswitch to function optimally?. How can we assure optimal toxin production using quorum sensing and subpopulations?.We asked ourselves what parts of our system can benefit the most from an interplayīetween modeling and experimental work? These considerations led us to ask the following questions: Another facet is to assess the optimal application strategy for BeeT in real The modeling work can inform and aid the improvement We modeled four different aspects of BeeT. In light of our guiding principles ( specificity, regulation and biocontainment),
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |