Team:TUDelft/Main-Measurement

Measurement

Measurement

As is more elaborately described in the detection design page, coacervates are polymer-rich regions in solutions of mutually attractive polymers. The process of mutually attractive polymers phase-separating into a polymer-rich and polymer-poor phase is known as coacervation. This process can under some circumstances be observed by the naked eye, as coacervates generally cause solutions to be more turbid. A key physical property of coacervates is that they require polymers of a certain length to form. In general, only polymers that are ‘long enough’ form coacervates. The underlying reason for this can be explained from a theoretical standpoint, which we demonstrated on the coacervation modelling page and from a practical/experimental perspective, shown on the detection results page. These latter facts directly imply that (changes in) polymer length can be visualized to the naked eye, which we utilized to design a novel detection method coined CINDY Seq (detection design page). However as we will argue in greater detail below, the method has potential to serve as a far broader method to characterize existing and future BioBricks, and the activity of many enzymes that show synthesis or degradation of any (coacervating) polymer.