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Revision as of 16:46, 18 September 2015
Mixed-Reality CellBidirectinal coupling between real and virtual bio-oscillators
Overview
The 20th century is main for Computer Science while the 21st is for Biology. Both the arising of computer and the exploring of life had a great impact and promotion on the whole world. And with the continued increasing development of computer science, the interaction between the real world and the virtual world in the computer is more and more incredible. Hence, we begin to realize that once a real life system is strongly coupled with a virtual one in the computer, we would have created a new life form, mixed-reality cells (MR. Cell). Therefore, a genetic oscillator was built in E. coli as the real part and an e-oscillator was simulated in a computer as the virtual part. The two parts could interact with each other through an interface device composed of microfluidic chip and chemical/optical modulator. At the beginning, the two oscillators work independently in a dual-reality state. With their interaction, they would gradually adjust to each other without human interference to a strongly coupled and synchronized mixed-reality state. A prototype of MR. Cell was demonstrated in this project which has great potential in a wide range of the future biological research.
Background
As we know, computer technology have created great revolution in humans’ lives from 20th century. And now, we enter into 21th century, a century of life science. The developments of computer science and life science both impact profoundly our world and society. And they also develop production of society. We can’t help imagining what will happen if these two combine. We can’t predict what will happen. However, we believe that the combination has great potential, even creates the next revolution.
Review the development history of computer science and life science development, we can find that these two begin combining gradually. Especially in recent years, with the increasing ability of computer simulation, many scientific research can be carried out by means of computer simulation in the virtual world. And this technology has a lot of applications in life science research. For example, man-machine interaction, artificial intelligence and visual simulation environment of medicine research. It is not exaggerated to claim that we have entered into a mix-reality era. So we are thinking why not create a life form half in the reality, half in the virtual world. The real part and virtual part regulate each other constantly eventually mix a mix-reality system.
A researcher ever explored the concept of mix-reality []. He set a simple pendulum in the reality, and designed a simulative programs in the computer. These two simple pendulums coupled in the same conditions limited in a numerical range. On the other hand, in the realm of biology, researchers constructed two genetic oscillator circuits in bacterium. These two genetic oscillator circuits coupled based on queuing theory []. We were sparked inspiration by these research achievements. We want to achieve the couple between organisms and computers to create a new united from. We believe such a life form possesses logic of computers and adaption of organisms will make a difference in the future.
MR. Cell
MR. Cell, a half-real and half-virtual life form, is composed of two parts, the real part in E.coli and the virtual part in computer. These two parts interact with each other through our interface hardware and will be coupled to a unified whole, mixed-reality state.
real part
A genetic oscillator, as a representative life activity form, was constructed in E.coli as the real part. Besides a light control system associated with the oscillator is adopted to connect the real part in computer, and we can regulate the oscillator by light through computer.
Virtual part
Mixed reality states occur only when a virtual and a real system are sufficiently similar. Therefore, based on the mechanism of the genetic oscillator, we simulate an e-oscillator in a computer as the virtual counterpart. In addition, the state of e-oscillator could be modulated through the parameter adjustment.
The synchronous interreality system—MR.Cell
At the beginning, the two oscillators, bio-oscillator and e-oscillator, work independently in a dual-reality state. When connected by the interface devices, the two parts begin to interact with each other. The state of bio-oscillator in E.coli cultured in a microfluidic chip would be observed through a fluorescence microscope and transmitted to the computer. The computer would analyze and process the received fluorescent data and adjust the state of e-oscillator through parameter modifications. In the meanwhile, based on its own state, the e-oscillator in computer also could regulate the state of bio-oscillator through LED intensity. The LED is controlled by a single-chip, which is linked to the computer. Following the processing cycle, the two parts interact with each other and couple eventually.
Besides, in consideration of the complexity and difficulty of the system, we take three stages to achieve our final goal, MR.Cell. At the first stage, we simulate two e-oscillators, which are of similar characters but have different initial states. And they couple gradually. Next stage, LED lamp replaces the genetic oscillator in E.coli to interact and couple with the e-oscillator. The last stage, our ultimate ambition, is to complete the MR. Cell, the two part of which synchronize and couple strongly.
Future work
Next step, we won't be satisfied with achieving coupling between bacterium's oscillators and computers. We will focus on the coupling between a metabolic system such as Krebs Cycle (Fig.1) and computer. We are interested in cell differentiation (Fig.2). If we could achieve the coupling between cell differentiation and computer, organisms will have more diversities. And the cell differentiation will get more amazing
Reference
1. Bin-Guang Ma, About Mechanics of Virtual Reality, written in 2005, published in: The General Science Journal, (August 25, 2006).
2. V Gintautas, A Hubler et al. Mixed Reality States in a Bidirectionally Coupled Interreality System.[J]. Phys. Rev. E 75, 057201 (2007)
3. Hubler A, Gintautas V. Experimental evidence for mixed reality states [J]. Complexity, 2011, 13(6):7–10.
4. Arthur P, Jangir S, Howard L, et al. Rapid and tunable post-translational coupling of genetic circuits. [J]. Nature, 2014, 508(7496):387-391.
© 2015 Huazhong Agricultural University iGEM Team. All rights reserved.
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- Email:hzauigem@gmail.com
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