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'''Fig. 4 The cell response level at Buzzer’s 15kHz experiment''' The amplitude of fluorescence intensity is close to the result in the 6.25μL/min, mid channel condition(Fig. 3 a) and the in the 50μL/min, slow channel condition in microfluidics chip(Fig. 3 b) .
 
'''Fig. 4 The cell response level at Buzzer’s 15kHz experiment''' The amplitude of fluorescence intensity is close to the result in the 6.25μL/min, mid channel condition(Fig. 3 a) and the in the 50μL/min, slow channel condition in microfluidics chip(Fig. 3 b) .
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'''Fig. 5 Comparison between the Piezo1+R-GECO cell response and R-GECO cell response to the 15kHz Buzzer’ s simulation.'''
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Revision as of 02:57, 20 October 2016

Team SUSTC-Shenzhen

Modeling Discoveries

Overview

In the whole experiment, we tested one mechanosensitive channel, Piezo1, with different mechanical forces using various devices. Surprisingly, there seems to be the interdependences and associations among these results.

Microfluidics

Different magnitude orders of shear force fields were generated in microfluidic channels controlled by the pumped-inflow rate. We quantify the cell responses in different levels of shear stress.

1. The fluorescence intensity emitted by Piezo1+R-GECO cells was much higher than the R-GECO cells after applying shear force. It reflected the Piezo1’s role of sensing mechanical force.

2. Wave patterns shows divergence between the Piezo1+R-GECO cell group and R-GECO cell group. The response of R-GECO is directly associated with the accumulation of Ca2+ in cytoplasm, with a steep increase ascend and a decline by degrees( see Fig.1b). The response level of cells with MS channel Piezo1 shows oscillation and a feed back, with a doublet peek in each response period( Fig.1 a).

3. Comparing the fluorescence intensity amplitudes corresponded to the shear stress ranged from 0 Pa to 5 Pa, we found a best response at around 0.01-0.1 Pa.

4. No response has been observed when the shear stress is larger than 2 Pa.

T--SUSTech Shenzhen--ModelResultFig1.png
Fig. 1 The activation level of Piezo1+R-GECO cells(a), R-GECO(b) cells, and Piezo1(not induced)+R-GECO cells(c) when the pumped rate is 50μL/min from 10s to 120s.

T--SUSTech Shenzhen--ModelResultFig2.png
Fig. 2 (a)When the pumped rate is 6.25μL/min from 10s to 120s and 190s to 240s, the activation levels increase with the shear stress increases (0.0Pa, 0.03Pa, 0.27Pa ). (b)When the pumped rate is 50 μL/min, the activation levels decline with the increasing stress(0.02Pa, 0.2Pa, 2.0Pa).

(c, d) The movie shows the fluorescence intensity of cells within a pumped period (a,b).

T--SUSTech Shenzhen--ModelResultFig3.png

Fig. 3 Comparing the result of 6.25μL/min, middle channel(0.03Pa) (a)and the result of 50μL/min, slow channel(0.02Pa)(b). In different manipulation conditions but with the same stress magnitude, cells behave similarly.


Audible Sound Experiment

By analyzing the primary cause of cell response in Buzzer’s experiment, we proposed that the channel opening was induced by the shear stress on the dish wall. Besides, the magnitude order of the stress(0.01 Pa by calculation) with the most efficient frequency applied is within to the valid shear stress magnitude in microfluidics. See detailed calculation section in our model.

T--SUSTech Shenzhen--ModelResultFig4.png

Fig. 4 The cell response level at Buzzer’s 15kHz experiment The amplitude of fluorescence intensity is close to the result in the 6.25μL/min, mid channel condition(Fig. 3 a) and the in the 50μL/min, slow channel condition in microfluidics chip(Fig. 3 b) .

T--SUSTech Shenzhen--0161020105447.png
Fig. 5 Comparison between the Piezo1+R-GECO cell response and R-GECO cell response to the 15kHz Buzzer’ s simulation.


Made by from the iGEM team SUSTech_Shenzhen.

Licensed under CC BY 4.0.