Team:XMU-China/Project FutureWork
From 2014.igem.org
Let’s start with Future work
The Role of Pattern Formation
Pattern formation are of fundamental importance in the coordination of multicellular behavior in a community or a large complex system. In physics and engineering, precisely control the size of the parts and verification, validation and predictive capability of engineering system performance lay an important theoretical foundation for the application in actual engineering. [1] In biology, a vast range of intracellular and intercellular coupling mechanisms lead to the formation of patterns that govern fundamental physiological processes, such as embryogenesis, tumorigenesis and angiogenesis. [2][3][4] Also, the ability to engineer synthetic systems that can form spatial patterns is a critical step towards tissue engineering, targeted therapy and fabrication of biomaterials. [5][6] While as the number of system components grows, it becomes increasingly difficult to coordinate component inputs and outputs to produce the overall desired behavior, which definitely restrict the application of gene therapy , tissue engineering and fabrication of biomaterials.
Perspective and Outlook
Based on this motivation and our experimental results of forming quasi-hyperbola at the present stage, we are going to conduct and adjust experiments according to a more accurate modelling, which expect higher accuracy in the experiments. As to modelling, because nonlinearities and stochasticity arise naturally, tools from the fields of nonlinear dynamics and statistical physics are extremely useful both in the generation of design specifications and for careful comparison between experiment and computational model. [7] Experimental and theoretical analyses reveal which kinetic parameters most significantly affect ring development over time. Construction and study of such synthetic multicellular systems can improve our quantitative understanding of naturally occurring developmental processes. Then it will lead us to understand and explain nature better. Based on a more accurate experiment and modeling, we will consider increasing the communication between the cells, introducing quorum-sensing in order to build more complex mathematical shapes, exerting environmental stimulus, Such systems level bioengineering can synergistically target multiple pathways, symptoms or targets, such as multiple cell populations or organs creating the potential for innovative environmental and therapeutic applications. [8] Increasing specificity of chemotaxis is another important task of us, as our new-design aptamer, which is specific towards theophylline, the related experiments are under way.
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