Team:BIT/project hardware
From 2013.igem.org
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- | <td width="814" class="t1"><p class="aaa"><span class="aaa"><span class="aaa">BIT's | + | <td width="814" class="t1"><p class="aaa"><span class="aaa"><span class="aaa">BIT's </span></span><span class="high">measurement</span></p> |
- | <p class="high"><span class="aaa"><span class="aaa"><span class="aaa">Based on</span> </span></span>< | + | <p class="high"><span class="aaa"><span class="aaa"><span class="aaa">Based on</span> </span></span><a href="#sbb" class="high">Standard Biomedical Bricks</a></p> |
<p class="high"> </p></td> | <p class="high"> </p></td> | ||
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- | <td class="t2"><p>Ok , Now we have contributed a new sensor , put forward a concept of <a href="https://2013.igem.org/Team:BIT/project_AC">controlled amplifier</a> and are working on optimizing it .But we think this is just a start ,for we can then use this kind of idea to detect nearly all kinds of antibiotics in the future and we are still trying our best to do so . </p> | + | <td class="t2"><p><span class="high">Measurement</span>:</p> |
- | <p>But a matter is that we can not see the florescence in normal condition ,just like the picture below ,we need | + | <p> Ok , Now we have contributed a new sensor , put forward a concept of <a href="https://2013.igem.org/Team:BIT/project_AC">controlled amplifier</a> and are working on optimizing it .But we think this is just a start ,for we can then use this kind of idea to detect nearly all kinds of antibiotics in the future and we are still trying our best to do so . </p> |
+ | <p> But a matter is that we can not see the florescence in normal condition ,just like the picture below ,we need UV exiting light , narrowband filter and light sensor to tell us the specific intensity of the light ,we also need to calculate the material we want to detect using our mathematical model . that's so complicated .</p></td> | ||
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<td class="t3"><p><img src="https://static.igem.org/mediawiki/2013/d/d1/BITsam.jpg" alt="" width="350"></p> | <td class="t3"><p><img src="https://static.igem.org/mediawiki/2013/d/d1/BITsam.jpg" alt="" width="350"></p> | ||
- | <p class="t2">here , a small, cheap and handheld device , together with our <a href="https://2013.igem.org/Team:BIT/project_microchip">micro chip</a> , is produced which together with our biological core ,forms a complete detecting system. </p> | + | <p class="t2"> here , a small, cheap and handheld device , together with our <a href="https://2013.igem.org/Team:BIT/project_microchip">micro chip</a> , is produced which together with our biological core ,forms a complete detecting system. </p> |
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- | <td>< | + | <td><p class="t2"><img src="https://static.igem.org/mediawiki/2013/c/cd/BITsys.jpg" alt="" width="819"></p></td> |
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- | <p class="t2">The small device uses normal color sensors and light path similar to UV spectrophotometer , but contains a new ,or rather strange mathematical model . a combination of our biological model and relative non-biological equations . | + | <p class="t2"><span class="aaa"><span class="high"><span class="t2">Parameters of the system:</span></span></span></p> |
+ | <p class="t2"> Cost: 260RMB/$40 (device & chip) . </p> | ||
+ | <p class="t2"> Size: 10cmX6.5cmX5cm</p> | ||
+ | <p class="t2"> Power: 20W Max , 3W Average</p> | ||
+ | <p class="t2"> Functions: User-define mathematical model . Fast detection . Temperature Control . </p> | ||
+ | <p class="t2"> Resolution: 5 ng/ml Standard fluorescein sodium , 2~5ng/ml Tet .</p> | ||
+ | <p class="t2"> The small device uses normal color sensors and light path similar to UV spectrophotometer , but contains a new ,or rather strange mathematical model . a combination of our biological model and relative non-biological equations . </p> | ||
<p class="t2"><img src="https://static.igem.org/mediawiki/2013/7/77/BITthe.jpg" width="701" height="365"></p> | <p class="t2"><img src="https://static.igem.org/mediawiki/2013/7/77/BITthe.jpg" width="701" height="365"></p> | ||
- | <p class="t2">For the specific Data of the measure system , please click <a href="https://2013.igem.org/Team:BIT/project_data">Here.</a> </p> | + | <p class="t2"> For the specific Data of the measure system , please click <a href="https://2013.igem.org/Team:BIT/project_data">Here.</a> </p> |
+ | <p class="t2"> </p> | ||
+ | <p class="t2"><span class="high">Standard Biomedical Bricks (if you have interest)</span><a name="sbb"></a></p> | ||
+ | <p class="t2"> Well , as for biological detection of harmful materials , such as <span class="aaas"><span class="ww">antibiotics , heavy metals , Aromatic hydrocarbons ,radioactive substances , Pesticide residues</span></span> and so on , we need a biological output in <span class="ww">color , fluroscence , Conductivity , OD value </span>and many other forms .</p> | ||
+ | <p class="t2"><img src="https://static.igem.org/mediawiki/2013/4/43/BITaa.gif" width="700" height="500"></p> | ||
+ | <p class="t2"> But those outputs may be so weak , just like our fluorescence , without the <a href="https://2013.igem.org/Team:BIT/project_AC" class="ww">controlled amplifier</a> , it can hardly be seen by our eyes ,even under UV light .</p> | ||
+ | <p class="t2"> Biomedical machines are used in this case , but those machines can hardly be found out of the lab .</p> | ||
+ | <p class="t2"> So we put forward <span class="high"><span class="ww">standard biomedical & biological system </span></span>,that is : To design a biological core , finishing the corresponding mathematical model , and a standard biomedical external device . </p> | ||
+ | <p class="t2"> Just like us , our aim is <span class="ww"><span class="aaa"><span class="ww">Practical Application</span></span></span> . We created a biosensor , an amplifier and their mathematical models . </p> | ||
+ | <p class="t2"> <span class="ww">Standard biomedical bricks</span> means the specific mathematical models which suits for our low cost sensors .iGEM is an application-oriented contest , so detection needs to be economic and convenient . Now we have many standard electronic sensors , BIT iGEM team has also optimized a processor which has an interface suiting for any kinds of sensors .<span class="ww">what we need to do</span> is to <span class="ww"><span class="t2"><span class="aaa"><span class="ww">build up our engineered bacteria</span></span></span></span>,<span class="ww"> burn the standard mathematical models in the processor</span> and <span class="ww">connect the suitable sensor to the processor</span> . then a complete and application-oriented system is built.just like our detecting system ,we have made many editions :</p> | ||
+ | <p class="t2"><img src="https://static.igem.org/mediawiki/2013/f/f6/BITqjf.jpg" width="700" height="470"></p> | ||
+ | <p class="t2"> Then we arrange user-friendly I/O interface to the standard processor ,making a colorful cover to the whole system . that means ,you can achieve any kinds of detection using the same device ,that sounds cool ,isn't it ? .</p> | ||
+ | <p class="t2"><img src="https://static.igem.org/mediawiki/2013/0/06/BITaaa.jpg" width="700" height="442"></p> | ||
+ | <p class="t2"> So what we have done at this time is just to simplify the old measurement and provide a new , convenient ,economic measurement which detection can be achieved in kichen . maybe ,some years later ,you can see a "bio-antibiotic detector" in supermarket ,and let's wait for the coming of that day !</p> | ||
+ | <p class="t2"> We have put forward a concept , and now we have make part of the concept into reality . we will go further on our way to overcome any difficulties ,and we eagerly need partners to fight with us . If you have interest in it </p> | ||
+ | <p class="t2"> </p> | ||
+ | <p class="t2"> </p> | ||
<p class="t2"> </p> | <p class="t2"> </p> | ||
<p class="t2"> </p> | <p class="t2"> </p> |
Revision as of 06:42, 27 October 2013
BIT's measurement Based on Standard Biomedical Bricks
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Measurement: Ok , Now we have contributed a new sensor , put forward a concept of controlled amplifier and are working on optimizing it .But we think this is just a start ,for we can then use this kind of idea to detect nearly all kinds of antibiotics in the future and we are still trying our best to do so . But a matter is that we can not see the florescence in normal condition ,just like the picture below ,we need UV exiting light , narrowband filter and light sensor to tell us the specific intensity of the light ,we also need to calculate the material we want to detect using our mathematical model . that's so complicated . |
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here , a small, cheap and handheld device , together with our micro chip , is produced which together with our biological core ,forms a complete detecting system. Parameters of the system: Cost: 260RMB/$40 (device & chip) . Size: 10cmX6.5cmX5cm Power: 20W Max , 3W Average Functions: User-define mathematical model . Fast detection . Temperature Control . Resolution: 5 ng/ml Standard fluorescein sodium , 2~5ng/ml Tet . The small device uses normal color sensors and light path similar to UV spectrophotometer , but contains a new ,or rather strange mathematical model . a combination of our biological model and relative non-biological equations . For the specific Data of the measure system , please click Here.
Standard Biomedical Bricks (if you have interest) Well , as for biological detection of harmful materials , such as antibiotics , heavy metals , Aromatic hydrocarbons ,radioactive substances , Pesticide residues and so on , we need a biological output in color , fluroscence , Conductivity , OD value and many other forms . But those outputs may be so weak , just like our fluorescence , without the controlled amplifier , it can hardly be seen by our eyes ,even under UV light . Biomedical machines are used in this case , but those machines can hardly be found out of the lab . So we put forward standard biomedical & biological system ,that is : To design a biological core , finishing the corresponding mathematical model , and a standard biomedical external device . Just like us , our aim is Practical Application . We created a biosensor , an amplifier and their mathematical models . Standard biomedical bricks means the specific mathematical models which suits for our low cost sensors .iGEM is an application-oriented contest , so detection needs to be economic and convenient . Now we have many standard electronic sensors , BIT iGEM team has also optimized a processor which has an interface suiting for any kinds of sensors .what we need to do is to build up our engineered bacteria, burn the standard mathematical models in the processor and connect the suitable sensor to the processor . then a complete and application-oriented system is built.just like our detecting system ,we have made many editions : Then we arrange user-friendly I/O interface to the standard processor ,making a colorful cover to the whole system . that means ,you can achieve any kinds of detection using the same device ,that sounds cool ,isn't it ? . So what we have done at this time is just to simplify the old measurement and provide a new , convenient ,economic measurement which detection can be achieved in kichen . maybe ,some years later ,you can see a "bio-antibiotic detector" in supermarket ,and let's wait for the coming of that day ! We have put forward a concept , and now we have make part of the concept into reality . we will go further on our way to overcome any difficulties ,and we eagerly need partners to fight with us . If you have interest in it
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