Difference between revisions of "Team:SiCAU-China"

Line 7: Line 7:
 
/* Wrapper for the content */
 
/* Wrapper for the content */
 
.igem_2017_content_wrapper {
 
.igem_2017_content_wrapper {
width: 81%;
+
width: 100%;
margin: 2%;
+
margin: 0;
 
display:block;
 
display:block;
 
float:left;  
 
float:left;  
Line 125: Line 125:
 
padding: 10px 15px;
 
padding: 10px 15px;
 
}
 
}
 
 
 
 
/********************************* SUPPORT CLASSES ********************************/
 
 
/* class that clears content below*/
 
.igem_2017_content_wrapper .clear {
 
clear:both;
 
}
 
 
 
/* adds extra spacing when clearing content */
 
.igem_2017_content_wrapper  .clear.extra_space {
 
height: 30px;
 
}
 
 
 
/* highlight class, makes content slightly smaller */
 
.igem_2017_content_wrapper .highlight {
 
margin: 0px 15px;
 
padding: 15px 0px;
 
}
 
 
 
/* highlight class, adds a gray background */
 
.igem_2017_content_wrapper .highlight.gray {
 
background-color: #f2f2f2;
 
}
 
 
/* highlight with decoration blue line on top */
 
.igem_2017_content_wrapper .highlight.blue_top {
 
    border-top: 4px solid #3399ff;
 
}
 
 
/* highlight with a full blue border decoration */
 
.igem_2017_content_wrapper .highlight.blue_border {
 
    border: 4px solid  #3399ff;
 
}
 
 
 
/* button class */
 
.igem_2017_content_wrapper .button{
 
max-width: 35%;
 
margin: 30px auto;
 
padding: 12px 10px;
 
    background-color: #3399ff;
 
    text-align: center;
 
  color: #ffffff;
 
-webkit-transition: all 0.4s ease;
 
-moz-transition: all 0.4s ease;
 
-ms-transition: all 0.4s ease;
 
-o-transition: all 0.4s ease; transition: all 0.4s ease; 
 
}
 
 
/* styling for button on hover */
 
.igem_2017_content_wrapper .button:hover{
 
background-color: #3399ff;
 
    color: #000000;
 
}
 
 
 
 
 
/***************************************************** RESPONSIVE STYLING ****************************************************/
 
 
/* IF THE SCREEN IS LESS THAN 1200PX */
 
@media only screen and (max-width: 1200px) {
 
 
#content {width:100%; }
 
.igem_2017_menu_wrapper {width:15%; right:0;}
 
.highlight {padding:10px 0px;}
 
.igem_2017_menu_wrapper #display_menu_control { display:none; }
 
#menu_content { display:block;}
 
.menu_button.direct_to_page {padding-left: 17px;}
 
 
}
 
 
/* IF THE SCREEN IS LESS THAN 800PX */
 
@media only screen and (max-width: 800px) {
 
 
.igem_2017_menu_wrapper { width:100%; height: 15%; position:relative; left:0%;}
 
.igem_2017_content_wrapper {width:100%; margin-left:0px;}
 
.column.half_size  {width:100%; }
 
.column.full_size img, .column.half_size img {  width: 100%; padding: 10px 0px;}
 
.highlight {padding:15px 5px;}
 
.igem_2017_menu_wrapper #display_menu_control { display:block; }
 
#menu_content { display:none;}
 
.igem_2017_menu_wrapper .menu_button .expand_collapse_icon { width: 5%; }
 
.menu_bottom_padding {display:none;}
 
.menu_button.direct_to_page { padding-left: 36px; }
 
}
 
 
 
 
 
/* special class that the system uses to make sure the team wants a page to be evaluated */
 
.judges-will-not-evaluate {
 
    width: 96.6%;
 
  margin: 5px 15px;
 
  display: block;
 
border: 4px solid #3399ff;
 
    font-weight: bold;
 
}
 
 
 
  
 
</style>
 
</style>
 
+
<div class="igem_2017_content_wrapper">
 
<div class="column full_size" >
 
<div class="column full_size" >
 
<img src="https://static.igem.org/mediawiki/2017/7/70/T-SICAU-%E7%9C%BC%E7%9D%9B.jpg">
 
<img src="https://static.igem.org/mediawiki/2017/7/70/T-SICAU-%E7%9C%BC%E7%9D%9B.jpg">
Line 241: Line 135:
 
<h1> description </h1>
 
<h1> description </h1>
 
<p>
 
<p>
Antibiotic is one of the most popular drug in the world, it can be used in medical treatment, agriculture, food processing, research and so on. But overusing antibiotics may bring antibiotics residue to environment, which will cause potential damage to human and impact the ecotope. Nowadays there are some physical and chemical methods to detect antibiotics residue, but they often need high cost and complicated process. So this year our team focus on Biosensor, said to be a easier way to detect than traditional methods at a lower price, to realize the trace detection.
+
Antibiotic is one of the most popular drug in the world, it can be used in medical treatment, agriculture, food processing, research and so on. But overusing antibiotics may bring antibiotics residue to environment, which will cause potential damage to human and impact the ecotope. Nowadays there are some physical and chemical methods to detect antibiotics residue, but they often need high cost and complicated process. So this year our team focus on Biosensor, said to be a easier way to detect than traditional methods at a lower price, to realize the trace detection.<br />
 
+
</p>
+
<br /><p>
+
 
The positive feedback loop has been widely applied in synthetic biology, such as logic gates, oscillators, bistable circuit. Besides, the positive feedback loop is also an ultra-sensitive circuit, just like Polymerase Chain Reaction (PCR), even be used in quantitative expression detected. So we engineered a biosensor, which will be established a positive feedback loop using luxI/luxR system in E.coli, to achieve trace detection. Similar to the detect theory of real-time quantitative PCR, there will be a relation between the content of input signal and the time to open the loop. We will use this system to do some antibiotics leftover detections.
 
The positive feedback loop has been widely applied in synthetic biology, such as logic gates, oscillators, bistable circuit. Besides, the positive feedback loop is also an ultra-sensitive circuit, just like Polymerase Chain Reaction (PCR), even be used in quantitative expression detected. So we engineered a biosensor, which will be established a positive feedback loop using luxI/luxR system in E.coli, to achieve trace detection. Similar to the detect theory of real-time quantitative PCR, there will be a relation between the content of input signal and the time to open the loop. We will use this system to do some antibiotics leftover detections.
 
</p>
 
</p>
 
</div>  
 
</div>  
 
+
</div>
  
  

Revision as of 12:27, 12 August 2017

description

Antibiotic is one of the most popular drug in the world, it can be used in medical treatment, agriculture, food processing, research and so on. But overusing antibiotics may bring antibiotics residue to environment, which will cause potential damage to human and impact the ecotope. Nowadays there are some physical and chemical methods to detect antibiotics residue, but they often need high cost and complicated process. So this year our team focus on Biosensor, said to be a easier way to detect than traditional methods at a lower price, to realize the trace detection.
The positive feedback loop has been widely applied in synthetic biology, such as logic gates, oscillators, bistable circuit. Besides, the positive feedback loop is also an ultra-sensitive circuit, just like Polymerase Chain Reaction (PCR), even be used in quantitative expression detected. So we engineered a biosensor, which will be established a positive feedback loop using luxI/luxR system in E.coli, to achieve trace detection. Similar to the detect theory of real-time quantitative PCR, there will be a relation between the content of input signal and the time to open the loop. We will use this system to do some antibiotics leftover detections.