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#banner { | #banner { | ||
− | background: url("https://static.igem.org/mediawiki/2017/ | + | background: url("https://static.igem.org/mediawiki/2017/8/85/T--IIT_Delhi--modellhhhhhlll.jpg") ; |
background-position: center; | background-position: center; | ||
background-repeat: no-repeat; | background-repeat: no-repeat; | ||
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<div class="dropdown-content"> | <div class="dropdown-content"> | ||
<a href="/Team:IIT_Delhi/Circuit_Design">Circuit design and construction</a> | <a href="/Team:IIT_Delhi/Circuit_Design">Circuit design and construction</a> | ||
− | <a href="/Team:IIT_Delhi/Microfluidics">Microfluidics and | + | <a href="/Team:IIT_Delhi/Microfluidics">Microfluidics and Fluorescence</a> |
<a href="/Team:IIT_Delhi/Photobleaching">Photobleaching</a> | <a href="/Team:IIT_Delhi/Photobleaching">Photobleaching</a> | ||
<a href="/Team:IIT_Delhi/Promoter">Promoter strength</a> | <a href="/Team:IIT_Delhi/Promoter">Promoter strength</a> | ||
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Noise in a system is a repeating issues from engineering to science. In a biogical system | Noise in a system is a repeating issues from engineering to science. In a biogical system | ||
− | noise can intrinsic, for | + | noise can intrinsic, for e.g.- from randomness of chemical reactions in side of the cell or |
− | extrinsic, for | + | extrinsic, for e.g.-, different operating temperature or cell shape size variety. To model such |
− | behavior we have adopted stochastic simulation algorithm by Gillespie.<br><br> | + | behavior we have adopted stochastic simulation algorithm by Gillespie.<br> |
+ | |||
+ | </h2> | ||
+ | <img src = "https://static.igem.org/mediawiki/2017/5/50/T--IIT_Delhi--untitled_diagram.png" style='border:3px solid #000000' width = "80%"> | ||
+ | <h6>Fig.1 Stochastic modeling flowchart</h6><br> | ||
+ | <h2 id="pfont"> | ||
+ | |||
The algorithm model the set of chemical reactions and the instant they occur as | The algorithm model the set of chemical reactions and the instant they occur as | ||
random. The model takes account of intrinsic noise more accurately. After each reaction, | random. The model takes account of intrinsic noise more accurately. After each reaction, | ||
the algorithm determines which reaction will occur next, and how much time will elapse | the algorithm determines which reaction will occur next, and how much time will elapse | ||
− | before it occurs. The flow chart of the Algorithm is presented as | + | before it occurs. The flow chart of the Algorithm is presented as Fig.1 which describes |
the Monte Carlo simulation based simulation.<br><br> | the Monte Carlo simulation based simulation.<br><br> | ||
+ | </h2> | ||
+ | <img src = "https://static.igem.org/mediawiki/2017/6/61/T--IIT_Delhi--five_node_output_Gillispie.jpg" style='border:3px solid #000000' width = "80%"> | ||
+ | <h6>Fig.2 GFP expression simulated via Gillispie algorithm</h6><br> | ||
+ | <img src = "https://static.igem.org/mediawiki/2017/0/02/T--IIT_Delhi--five_node_mRNA_Gillispie.jpg" style='border:3px solid #000000' width = "40%"> | ||
− | + | <img src = "https://static.igem.org/mediawiki/2017/d/d3/T--IIT_Delhi--five_node_proteins_Gillispie.jpg" style='border:3px solid #000000' width = "40%"> | |
+ | <h6>Fig.3 mRNA Fig.4 Proteins</h6> | ||
+ | <h2 id="pfont"> | ||
+ | The simulation results presented in the above figures show a square wave pattern in the mRNA | ||
and protein level. On simulating the system in stochastic enviornment, few more interesting results comes into picture. One of such is noise propagation in the biological | and protein level. On simulating the system in stochastic enviornment, few more interesting results comes into picture. One of such is noise propagation in the biological | ||
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translation process (which is linear in nature) in frequency domain, the transfer function | translation process (which is linear in nature) in frequency domain, the transfer function | ||
becomes,<br><br> | becomes,<br><br> | ||
− | <img src = "" style='border:3px solid #000000' width = " | + | <img src = "https://static.igem.org/mediawiki/2017/c/c9/T--IIT_Delhi--stochasform.jpg" style='border:3px solid #000000' width = "40%"><br><br> |
− | The frequency response of translational dynamics is shown in Fig. | + | The frequency response of translational dynamics is shown in Fig.5 validate the analysis. The mRNA dynamics which is noisy, and as noises are always are of high frequency in nature, the low pass action provided by the process can attenuate such characteristics. |
As the γ increases the bandwidth increases and make the system succeptible to noise, that | As the γ increases the bandwidth increases and make the system succeptible to noise, that | ||
is why a ssrA tag protein expression is much faster (owe to the larger bandwidth) but | is why a ssrA tag protein expression is much faster (owe to the larger bandwidth) but | ||
becomes more noisy (as the system low pass action range is increased with the increase | becomes more noisy (as the system low pass action range is increased with the increase | ||
in bandwidth.)<br><br> | in bandwidth.)<br><br> | ||
− | |||
</h2> | </h2> | ||
+ | <img src = "https://static.igem.org/mediawiki/2017/8/8b/T--IIT_Delhi--fig_freq_response.png" style='border:3px solid #000000' width = "80%"><br> | ||
+ | <h6>Fig.5 Frequency response for various degradation rate<br> | ||
+ | |||
+ | </h6> | ||
</header> | </header> | ||
Latest revision as of 22:36, 1 November 2017
Stochastic Model