Team:ZJU-China/Tools

From 2014.igem.org

(Difference between revisions)
 
(52 intermediate revisions not shown)
Line 2: Line 2:
{{ZJU-China/Style}}
{{ZJU-China/Style}}
{{ZJU-China/Header}}
{{ZJU-China/Header}}
-
{{ZJU-China/Footer}}
+
<!--{{ZJU-China/Footer}}-->
{{ZJU-China/Tools}}
{{ZJU-China/Tools}}
<html>
<html>
-
 
+
<body style="background-color: white">
-
 
+
<script type="text/javascript">
-
<body>
+
function ajaxPost(){
-
<div class="zju_frame" style="line-height:normal;background-color:white">
+
$.ajax({
-
    <script type="text/javascript">
+
type:"get",
 +
async:false,
 +
url:"http://www.yxol.org/test/index.php",
 +
dataType:"jsonp",
 +
jsonp:"jsonpCallback",
 +
data:{
 +
sequence1: $("#name_attendee_1").val(),
 +
sequence2: $("#name_attendee_2").val(),
 +
sequence3: $("#name_attendee_3").val(),
 +
sequence4: $("#name_attendee_4").val(),
 +
sequence5: $("#name_attendee_5").val(),
 +
mode: $("#modevalue").val()
 +
},
 +
success:function(data){
 +
console.log(data);
 +
//data=eval("("+data+")");
 +
// alert(data)
 +
var txt='';
 +
// txt='<p>'+data[0]['homo']+'</p>';
 +
txt+='<table border="1" cellspacing="0" width="100%" bordercolorlight="#333333" bordercolordark="#efefef" width="100%" style="word-break: break-all;"><tr bgcolor=#cccccc><td style="width: 3%">part</td><td style="width: 17%">Homology region</td><td style="width: 25%">P-primer</td><td style="width: 6%">P-primer GC</td><td style="width: 6%">P-primer TM</td><td style="width: 24%">F-primer</td><td style="width: 6%">F-primer GC</td><td style="width: 6%">F-primer TM</td><td style="width: 7%">connect</td></tr>';
 +
for (key in data) {
 +
txt+='<tr bgcolor=#eafeff><td>';
 +
txt+=(key*1.0+1);
 +
txt+='</td><td>';
 +
txt+=data[key]['homo'];
 +
txt+='</td><td>';
 +
txt+=data[key]['pprimer'];
 +
txt+='</td><td>';
 +
                txt+=data[key]['pp GC'];
 +
txt+='</td><td>';
 +
                txt+=data[key]['pp TM'];
 +
txt+='</td><td>';
 +
                txt+=data[key]['fprimer'];
 +
                txt+='</td><td>';
 +
                txt+=data[key]['fp GC'];
 +
txt+='</td><td>';
 +
                txt+=data[key]['fp TM'];
 +
txt+='</td><td>';
 +
txt+=data[key]['connect'];
 +
txt+='</td></tr>';
 +
}
 +
txt+='</table>';
 +
$("body").append(txt);
 +
}
 +
});
 +
}
function sendpost() {
function sendpost() {
-
$.post("http://bis.zju.edu.cn/GS_Box/script.php",{
+
$.post("http://bis.zju.edu.cn/GS_Box/index.php",{
sequence1: $("#name_attendee_1").val(),
sequence1: $("#name_attendee_1").val(),
sequence2: $("#name_attendee_2").val(),
sequence2: $("#name_attendee_2").val(),
Line 24: Line 69:
var txt='';
var txt='';
// txt='<p>'+data[0]['homo']+'</p>';
// txt='<p>'+data[0]['homo']+'</p>';
-
txt+='<table border="1" cellspacing="0" width="100%" bordercolorlight="#333333" bordercolordark="#efefef" width="100%" style="word-break: break-all;"><tr bgcolor=#cccccc><td style="width: 3%">part</td><td style="width: 17%">homo</td><td style="width: 27%">pp</td><td style="width: 5%">pp GC</td><td style="width: 5%">pp TM</td><td style="width: 26%">fp</td><td style="width: 5%">fp GC</td><td style="width: 5%">fp TM</td><td style="width: 7%">connect</td></tr>';
+
txt+='<table border="1" cellspacing="0" width="100%" bordercolorlight="#333333" bordercolordark="#efefef" width="100%" style="word-break: break-all;"><tr bgcolor=#cccccc><td style="width: 3%">part</td><td style="width: 17%">homeoregion</td><td style="width: 27%">P-primer</td><td style="width: 5%">P-primer GC</td><td style="width: 5%">P-primer TM</td><td style="width: 26%">F-primer</td><td style="width: 5%">F-primer GC</td><td style="width: 5%">F-primer TM</td><td style="width: 7%">connect</td></tr>';
for (key in data) {
for (key in data) {
txt+='<tr bgcolor=#eafeff><td>';
txt+='<tr bgcolor=#eafeff><td>';
Line 51: Line 96:
}
}
</script>
</script>
-
<div id="border" style="color:white;background-color:#4bc288;font-size:70px;padding-left:170px;"><h2><br><br>GS-Box<br><br></h2><p style="font-size:40px">A simple & efficient bioinformatics tool for Gene-Socket<br><br><br></p></div>
+
<div id="border" style="color:white;background-color:#4bc288;font-size:70px;padding-left:170px;"><h2 style="color:white;text-decoration:none"><br><br><br><br><br>GS-Box<br><br></h2><p style="font-size:40px"><br>A simple & efficient tool for Gene-Socket<br><br><br><br></p></div>
      
      
-
<p style="background-color:#99dbe3;font-size:24px;padding-left:190px;padding-right:150px;LINE-HEIGHT:50px;"><br><br><BIG><em>E</em></BIG>very excellent technique should be simple and efficient to use! As an excellent technique, gene-socket also does well in this respect------ it has its' own optimization tool: GS-BOX. GS-BOX is a bioinformatics tool which is designed for customs to build their own gen-sockets easily and efficiently. What need the customs do with the tool? Just input the gene circuit sequences and then GS-BOX will design the experimental process automatically and every detail that customs will need to use!<br><br><br><br></p>
+
<div><p style="background-color:#99dbe3;font-size:24px;padding-left:190px;padding-right:150px;LINE-HEIGHT:50px;"><br><br><BIG><em>E</em></BIG>very excellent technique should be simple and efficient to use! As an excellent technique, gene-socket also does well in this respect------ it has its' own optimization tool: GS-BOX. GS-BOX is a bioinformatics tool which is designed for customs to build their own gen-sockets easily and efficiently. What need the customs do with the tool? Just input the gene circuit sequences and then GS-BOX will design the experimental process automatically and every detail that customs will need to use!<br><br></p></div>
<ul class="test3">
<ul class="test3">
-
   <li><div class="handle3"><img src='https://static.igem.org/mediawiki/2014/4/4b/ZJU_tools_com1.gif'></div>
+
   <li><div class="handle3"><img src='https://static.igem.org/mediawiki/2014/b/b9/ZJU_tool_wing1.gif'/></div>
     <h3>Service</h3>
     <h3>Service</h3>
     <p style="background-color:#abfdb1;font-size:18px;">
     <p style="background-color:#abfdb1;font-size:18px;">
-
       GS-Box provides <b>3 kinds of modes and 7 services.</b><br><br>For <b> mode 1,</b> GS-Box can provide:<br>&nbsp;&nbsp;&nbsp;&nbsp;i. Homoedomain's sequence<br> &nbsp;&nbsp;&nbsp;&nbsp;ii. P-primer's sequence<br> &nbsp;&nbsp;&nbsp;&nbsp;iii. P-primer's GC percent<br> &nbsp;&nbsp;&nbsp;&nbsp;iv. P-primer's TM value<br> &nbsp;&nbsp;&nbsp;&nbsp;v. F-primer's sequence<br> &nbsp;&nbsp;&nbsp;&nbsp;vi. F-primer GC percent<br> &nbsp;&nbsp;&nbsp;&nbsp;vii. F-primer TM value<br><br>For <b>other modes</b>, it cotains two homoedomains and also two P-primers and F-primers.<br><br> If you dont know how to use these sources, please read the <b>example</b> below or read our <b>project</b>carefully.</p>
+
       GS-Box provides <b>3 kinds of modes and 7 services.</b><br><br>For <b> mode 1,</b> GS-Box can provide:<br>&nbsp;&nbsp;&nbsp;&nbsp;i. Homeoregion's sequence<br> &nbsp;&nbsp;&nbsp;&nbsp;ii. P-primer's sequence<br> &nbsp;&nbsp;&nbsp;&nbsp;iii. P-primer's GC percent<br> &nbsp;&nbsp;&nbsp;&nbsp;iv. P-primer's TM value<br> &nbsp;&nbsp;&nbsp;&nbsp;v. F-primer's sequence<br> &nbsp;&nbsp;&nbsp;&nbsp;vi. F-primer GC percent<br> &nbsp;&nbsp;&nbsp;&nbsp;vii. F-primer TM value<br><br>For <b>other modes</b>, it cotains two homeoregions and also two P-primers and F-primers.<br><br> If you dont know how to use these sources, please read the <b>example</b> below or read our <b>project</b>carefully.</p>
   </li>
   </li>
-
   <li><div class="handle3"><img src='https://static.igem.org/mediawiki/2014/8/8b/ZJU_tools_com2.gif'></div>
+
   <li><div class="handle3"><img src='https://static.igem.org/mediawiki/2014/e/ee/ZJU_tool_wing2.gif'/></div>
     <h3>Design Principle</h3>
     <h3>Design Principle</h3>
-
     <p style="background-color:#abfdb1;font-size:18px;"><b>Homeodomains:</b><br>
+
     <p style="background-color:#abfdb1;font-size:18px;"><b>Homeoregions:</b><br>
&nbsp;&nbsp;&nbsp;1. Don't have similar sequences with E.coli<br>
&nbsp;&nbsp;&nbsp;1. Don't have similar sequences with E.coli<br>
&nbsp;&nbsp;&nbsp;(to avoid off-target effects)<br>
&nbsp;&nbsp;&nbsp;(to avoid off-target effects)<br>
Line 75: Line 120:
&nbsp;&nbsp;&nbsp;3. Proper length<br>&nbsp;&nbsp;&nbsp;(to ensure that PCR can work. If the length is too short, the PCR cannot get the result; If the length is too long, the TM value will be very high and make PCR's result not good)</p>
&nbsp;&nbsp;&nbsp;3. Proper length<br>&nbsp;&nbsp;&nbsp;(to ensure that PCR can work. If the length is too short, the PCR cannot get the result; If the length is too long, the TM value will be very high and make PCR's result not good)</p>
   </li>
   </li>
-
   <li><div class="handle3"><img src='https://static.igem.org/mediawiki/2014/d/d5/ZJU_tools_com3.gif'></div>
+
   <li><div class="handle3"><img src='https://static.igem.org/mediawiki/2014/3/31/ZJU_tool_wing3.gif'/></div>
     <h3>Design Method</h3>
     <h3>Design Method</h3>
     <p style="background-color:#abfdb1;font-size:18px;"><b>Step 1.</b> Generate more than 1000 sequences which contains 40 bp and are made of A/T/G/C <br><br><b>Step 2.</b> Do blast between the sequences and the E.coli's genome to delete some sequences which have samilar sequences with E.coli. As a result, a database which has 1000 sequences was established.<br><br><b>Step 3.</b> Do blast between the custom's sequences and the database's data to delete some sequences which have samilar sequences with custom's sequences. As a result, a secondary database was established.<br><br><b>Step 4.</b> Select some data in the secondary database which has proper primer.<br><br><b>Step 5.</b> Print out the primer's information.</p>
     <p style="background-color:#abfdb1;font-size:18px;"><b>Step 1.</b> Generate more than 1000 sequences which contains 40 bp and are made of A/T/G/C <br><br><b>Step 2.</b> Do blast between the sequences and the E.coli's genome to delete some sequences which have samilar sequences with E.coli. As a result, a database which has 1000 sequences was established.<br><br><b>Step 3.</b> Do blast between the custom's sequences and the database's data to delete some sequences which have samilar sequences with custom's sequences. As a result, a secondary database was established.<br><br><b>Step 4.</b> Select some data in the secondary database which has proper primer.<br><br><b>Step 5.</b> Print out the primer's information.</p>
   </li>
   </li>
-
   <li><div class="handle3"><img src='https://static.igem.org/mediawiki/2014/3/31/ZJU_tools_com4.gif'></div>
+
   <li><div class="handle3"><img src='https://static.igem.org/mediawiki/2014/6/6c/ZJU_tool_wing4.gif'/></div>
     <h3>How to use</h3>
     <h3>How to use</h3>
-
     <p style="background-color:#abfdb1;font-size:18px;">GS-Box has <b>3 modes.</b> <br><br>If you want to build a circuit which doesn't contian a promoter or terminator inside the circuit, you shuld choose <b>mode 1;</b><br> If you want to build a circuit which contians a promoter but not a terminator inside the circuit, you shuld choose <b>mode 2;</b> <br>If you want to build a circuit which contians a terminator but not a promoter inside the circuit, you shuld choose <b>mode 3;</b><br><br>For more information, please see the <b>solution</b> below.</p>
+
     <p style="background-color:#abfdb1;font-size:18px;">GS-Box has <b>3 modes.</b> <br><br>If you want to build a circuit which doesn't contian a promoter or terminator inside the circuit, you shuld choose <b>mode 1;</b><br> If you don't want to use our promoter, you shuld choose <b>mode 2;</b> <br>If your circuit contians a terminator, you shuld choose <b>mode 3;</b><br><br>For more information, please see the <b>solutions</b> below.</p>
   </li>
   </li>
-
   <li><div class="handle3"><img src='https://static.igem.org/mediawiki/2014/e/ef/ZJU_tools_com5.gif'></div>
+
   <li><div class="handle3"><img src='https://static.igem.org/mediawiki/2014/b/b6/ZJU_tool_wing5.gif'/></div>
     <h3>Help</h3>
     <h3>Help</h3>
     <p style="background-color:#abfdb1;font-size:18px;">You should know that if you choose a mode, this mode will be used for <b>all</b> of your parts. So if you just want to use the special mode for only one of your parts, you should use GS-Box <b>twice</b>, once without the special part and once only contain the special part.<br><br>For more information, please see the <b>example</b> below.<br><br>If you still have any questions when using GS-Box, please contact us.<br><br><b>Team Forum(BBS):</b> <br>&nbsp;&nbsp;&nbsp;ZJU-China 2014 Team Forum on ZJU Sever<br><b>Post Address:</b><br>&nbsp;&nbsp;&nbsp;Biolab Center Room 413, ZJU Zijin'gang Campus, Yuhang Tang Road No.866, Hangzhou, Zhejiang<br><b>Email Address:</b> <br>&nbsp;&nbsp;&nbsp;zjuchina2014 @ 163.com</p>
     <p style="background-color:#abfdb1;font-size:18px;">You should know that if you choose a mode, this mode will be used for <b>all</b> of your parts. So if you just want to use the special mode for only one of your parts, you should use GS-Box <b>twice</b>, once without the special part and once only contain the special part.<br><br>For more information, please see the <b>example</b> below.<br><br>If you still have any questions when using GS-Box, please contact us.<br><br><b>Team Forum(BBS):</b> <br>&nbsp;&nbsp;&nbsp;ZJU-China 2014 Team Forum on ZJU Sever<br><b>Post Address:</b><br>&nbsp;&nbsp;&nbsp;Biolab Center Room 413, ZJU Zijin'gang Campus, Yuhang Tang Road No.866, Hangzhou, Zhejiang<br><b>Email Address:</b> <br>&nbsp;&nbsp;&nbsp;zjuchina2014 @ 163.com</p>
Line 90: Line 135:
<div style="background-color:#e0ff9b;font-size:24px;padding-left:190px;padding-right:170px;LINE-HEIGHT:30px;">
<div style="background-color:#e0ff9b;font-size:24px;padding-left:190px;padding-right:170px;LINE-HEIGHT:30px;">
-
     <h2 id="border" style="text-align:center;font-size:50px;"><br><br><em>Solution</em><br></h2>
+
     <h2 id="border" style="text-align:center;font-size:50px;"><br><br><em>Solutions</em><br></h2>
-
     <p><br>Watch this viedo, and this will help you understand what Gene-Socket did and what GS-Box's four modes mean</p>
+
     <p><br>As you see, we built 2 parts to help biologists to insert their gene of interest( GOI ) into the chromosome. When we built this tool, we thought about a question: can Gene-Socket only insert simple genes like GFP into chromosome? Now, we can announce that the answer is "No". With the help of Gene-Socket, we can build kinds of gene circuits no matter how complex they are.<br><img src ="https://static.igem.org/mediawiki/2014/c/c0/ZJU_Fragment_prepare.gif" width="800" height="400"/><br><br></p>
-
    <p>imagine here is a video</p>
+
    <p>If we just want to insert one part into the chromosome, what should we do? We can add two homeoregions next to the part, then link them to the part BBa_k1433009. In this way, we can use Gene-Socket to insert the new gene-combination into chromosome. (See how we solve the problem in the picture). We call this occasion "Mode 1".<br><img src ="https://static.igem.org/mediawiki/2014/2/22/ZJU_tool_ch1.jpg" width="450" height="300"/><img src ="https://static.igem.org/mediawiki/2014/5/5e/ZJU_tool_mode1.jpg" width="450" height="300"/><br><br></p>
-
    <p>As you see, If you want to use GS-Box to insert your part into the chromosome, you don't need to submit the promoter and terminator because ZJU-CHINA2014 had built it already for you. But if your promoter or terminator is special and you have to use it rather than using the official promoter or terminator, you need to think of your situations. There exists 3 situaitions:<br><ul style="font-size:18px;padding-left:50px;padding-right:50px;"><li>Mode 1: You choose to use the official promoter & terminator</li><li>Mode 2: Your part contains a promoter and you want to use it</li><li>Mode 3: Your part contains a terminator</li></ul></p>
+
     <p>Now we want to build a more complex circuit. We want to insert a promoter, an RBS and a CDS. If we still use the old method, our promoter will not work. It seems that we need to find a new way. What if we change the homeoregions? We can replace the old promoter with a new one by designing the homeoregions. (See how we solve the problem in the picture). We call this occasion "Mode 2".<br><img src ="https://static.igem.org/mediawiki/2014/c/cf/ZJU_tool_ch2.jpg" width="450" height="300"/><img src ="https://static.igem.org/mediawiki/2014/2/24/ZJU_tool_mode2.jpg" width="450" height="300"/><br><br></p>
-
<p>Mode 1:<br>If you want to build a circuit which has one promoter, one fuction gene and one terminator, you just need to submit the fuction gene because GS-Box has designed the promoter and terminator already. That is, you can regard the fuction gene as a "part". Now you need to insert the "part" into the device on chromosome. It is easy to achieve this goal if you use Gene-Socket, but before you use it you need to modify your "part" just like the picture below. This is the mode 1.<br><br><img src ="images/ch1.jpg" width="450" height="300"><img src ="images/mode1.jpg" width="450" height="300"><br><br>
+
     <p>Well, what if our circuit contains a terminator? It will stop the gene expression and break our hearts. But if we link the circuit with a new part, BBa_k1433010, the problem seems to be solved. (See how we solve the problem in the picture). We call this occasion "Mode 3".<br><img src ="https://static.igem.org/mediawiki/2014/2/22/ZJU_tool_ch1.jpg" width="450" height="300"/><img src ="https://static.igem.org/mediawiki/2014/3/3a/ZJU_tool_mode3.jpg" width="450" height="300"/><br><br></p>
-
     Mode 2:<br>What if you want to build this one --- a circuit with a special promoter that you need to use. In this case, you can modify your "part" in a different way and can work normal. This kind of modification is established just like the picture showed. This is the mode 2.<br><br>
+
    <p>As you see, If you want to use GS-Box to insert your part into the chromosome,there are 3 classical mode for you.<br><ul style="font-size:18px;padding-left:50px;padding-right:50px;"><li>Mode 1: You choose to use the our official promoter & terminator</li><li>Mode 2: Your don't want to use our promoter</li><li>Mode 3: Your part contains a terminator</li></ul></p>
-
    <img src ="images/ch2.jpg" width="450" height="300"><img src ="images/mode2.jpg" width="450" height="300"><br><br>
+
    <p>With the methods that we have used above, we can solve most problems when we want to insert a gene-circuit into chromosome, but sometimes the situation may be more complex. We cannot list all of the situations for you, but we have given you the tool and the idea to solve a new problem. Join the designers’ team and enjoy it!<br><br></p>
-
     Mode 3:<br>If you have a circuit which must contian a terminator inside the circuit, as you see, the Gene-Socket will not work. What should you do on this occasion? You can modify your "part" in a different way, that is, add a promoter behind the part and as a result the problem will be solved. The way you modify your "part" is just like the picture showed. This is the mode 3.<br><br>
+
-
    <img src ="images/ch1.jpg" width="450" height="300"><img src ="images/mode3.jpg" width="450" height="300"><br><br>
+
-
<br></p>
+
</div>
</div>
<div style="background-color:#99dbe3;font-size:24px;padding-left:190px;padding-right:170px;LINE-HEIGHT:30px;">
<div style="background-color:#99dbe3;font-size:24px;padding-left:190px;padding-right:170px;LINE-HEIGHT:30px;">
     <h2 id="border" style="text-align:center;font-size:50px;"><br><br>Example<br><br></h2>   
     <h2 id="border" style="text-align:center;font-size:50px;"><br><br>Example<br><br></h2>   
-
     <p><b>Example 1:</b><br>I just want to insert a simple gene---GFP(see the picture below). This situation is very simple. According to "How to Use GS-Box", this is the mode 1, and I need to modify it as the picture below.<br><br><img src ="images/gfp.jpg" width="300" height="200">&nbsp;&nbsp;&nbsp;<img src ="images/gfpmode1.jpg" width="300" height="200"><br>
+
     <p><b>Example 1:</b><br>I just want to insert a simple gene---GFP(see the picture below). This situation is very simple. According to "Solutions", this is the mode 1, and I need to modify it as the picture below.<br><br><img src ="https://static.igem.org/mediawiki/2014/8/8d/ZJU_example1.jpg" width="800" height="400"/><br>
-
     <b>Example 2:</b><br>I want to insert a circuit, which contains a promoter, a RBS and GFP(see the picture below). According to "How to Use GS-Box", this is the mode 2, and I need to modify it as the picture below.<br><br><img src ="images/gfp2.jpg" width="300" height="200">&nbsp;&nbsp;&nbsp;<img src ="images/gfpmode2.jpg" width="300" height="200"><br>
+
     <b>Example 2:</b><br>I want to insert a circuit, which contains a promoter, a RBS and GFP(see the picture below). According to "Solutions", this is the mode 2, and I need to modify it as the picture below.<br><br><img src ="https://static.igem.org/mediawiki/2014/c/cf/ZJU_example2.jpg" width="800" height="400"/><br>
-
     <b>Example 3:</b><br>I want to insert a circuit which contains a RBS, a GFP and a terminator(see the picture below). According to "How to Use GS-Box", this is the mode 3, and I need to modify it as the picture below.<br><br><img src ="images/gfp3.jpg" width="300" height="200">&nbsp;&nbsp;&nbsp;<img src ="images/gfpmode3.jpg" width="300" height="200"><br><br><br></p>
+
     <b>Example 3:</b><br>I want to insert a circuit which contains a RBS, a GFP and a terminator(see the picture below). According to "Solutions", this is the mode 3, and I need to modify it as the picture below.<br><br><img src ="https://static.igem.org/mediawiki/2014/2/29/ZJU-tool-example.jpg" width="800" height="400"/><br><br><br></p>
</div>
</div>
 +
<div style="background-color:white;font-size:24px;padding-left:190px;padding-right:170px;LINE-HEIGHT:30px;">
 +
    <h2 id="border" style="text-align:center;font-size:50px;"><br><br>Download</h2>
 +
    <p>GS-Box is an useful web tool, it contains some fuctions that people often use. So we share all the codes of GS-Box(except images) to help other IGEMers to use GS-Box in their own computers or share with more people. As you see, we submit a ZIP named "all codes" below and you can download it for free. In the ZIP, there is a "Read me" txt, please read it before you use it. You can also download our database which is strictly chosen and the data is OK to use. Before you use the codes and the database, you need to install a local-BLAST, which is developed by <a href="http://blast.ncbi.nlm.nih.gov/Blast.cgi?CMD=Web&PAGE_TYPE=BlastDocs&DOC_TYPE=Download"/>NCBI.</a></p>
 +
<p align=center><img src="https://static.igem.org/mediawiki/2014/9/96/ZJU_tool_download.jpg"/>
 +
<a href="https://static.igem.org/mediawiki/2014/0/0f/ZJU_tool_all_codes.zip"/>ALL codes</a><a href="https://static.igem.org/mediawiki/2014/b/b3/ZJU_Database.zip"/>  /  Database</a></p>
 +
<p><br><br></p>
 +
<div>
<div id="page-wrap">
<div id="page-wrap">
Line 186: Line 235:
                 </select>
                 </select>
-
<p style="font-size:15px"><br>If you don't know what these modes mean, please read "How to use" carfully. Are you sure you have selected the right mode?<br></p>
+
<p style="font-size:15px"><br>If you don't know what these modes mean, please read "<b>Solutions</b>" carfully. Are you sure you have selected the right mode?<br></p>
<input type="radio" id="company_name_toggle_on" name="company_name_toggle_group"></input>
<input type="radio" id="company_name_toggle_on" name="company_name_toggle_group"></input>
Line 203: Line 252:
<div class="push">
<div class="push">
<p style="font-size:15px">
<p style="font-size:15px">
-
You shuld learn that your mode is for all of your parts. If you just want to change only one of them, Please see the "Help". Are you sure this mode suits for most of your parts?
+
You shuld learn that your mode is for all of your parts. If you just want to change only one of them, Please read the "<b>Example</b>". Are you sure this mode suits for most of your parts?
</p>
</p>
Line 229: Line 278:
<input type="checkbox" id="rock"></input>
<input type="checkbox" id="rock"></input>
-
<input type="button" id="submit_button" class="push" value="Complete Design" onclick="sendpost()"></input>
+
<input type="button" id="submit_button" class="push" value="Complete Design" onclick="ajaxPost()"></input>
                 <p>See The Result Below</p>
                 <p>See The Result Below</p>
</fieldset>
</fieldset>
Line 236: Line 285:
</div>
</div>
-
</div>
+
 
</body>
</body>
-
 
</html>
</html>

Latest revision as of 03:34, 18 October 2014

GS-Box






GS-Box


A simple & efficient tool for Gene-Socket





Every excellent technique should be simple and efficient to use! As an excellent technique, gene-socket also does well in this respect------ it has its' own optimization tool: GS-BOX. GS-BOX is a bioinformatics tool which is designed for customs to build their own gen-sockets easily and efficiently. What need the customs do with the tool? Just input the gene circuit sequences and then GS-BOX will design the experimental process automatically and every detail that customs will need to use!

  • Service

    GS-Box provides 3 kinds of modes and 7 services.

    For mode 1, GS-Box can provide:
        i. Homeoregion's sequence
        ii. P-primer's sequence
        iii. P-primer's GC percent
        iv. P-primer's TM value
        v. F-primer's sequence
        vi. F-primer GC percent
        vii. F-primer TM value

    For other modes, it cotains two homeoregions and also two P-primers and F-primers.

    If you dont know how to use these sources, please read the example below or read our projectcarefully.

  • Design Principle

    Homeoregions:
       1. Don't have similar sequences with E.coli
       (to avoid off-target effects)
       2. Don't have similar sequences with custom's parts
       (to avoid off-target effects)
       3. Fit the subsequent steps' requiring

    Primer:
       1. GC content & TM value
       (to ensure that PCR can work. If the GC percent is between 40% -60%, the PCR result will be fine)
       2. Duplex formation and hairpin
       (to ensure that PCR can work. If the primer has duplex formation and hairpin, the PCR cannot get result)
       3. Proper length
       (to ensure that PCR can work. If the length is too short, the PCR cannot get the result; If the length is too long, the TM value will be very high and make PCR's result not good)

  • Design Method

    Step 1. Generate more than 1000 sequences which contains 40 bp and are made of A/T/G/C

    Step 2. Do blast between the sequences and the E.coli's genome to delete some sequences which have samilar sequences with E.coli. As a result, a database which has 1000 sequences was established.

    Step 3. Do blast between the custom's sequences and the database's data to delete some sequences which have samilar sequences with custom's sequences. As a result, a secondary database was established.

    Step 4. Select some data in the secondary database which has proper primer.

    Step 5. Print out the primer's information.

  • How to use

    GS-Box has 3 modes.

    If you want to build a circuit which doesn't contian a promoter or terminator inside the circuit, you shuld choose mode 1;
    If you don't want to use our promoter, you shuld choose mode 2;
    If your circuit contians a terminator, you shuld choose mode 3;

    For more information, please see the solutions below.

  • Help

    You should know that if you choose a mode, this mode will be used for all of your parts. So if you just want to use the special mode for only one of your parts, you should use GS-Box twice, once without the special part and once only contain the special part.

    For more information, please see the example below.

    If you still have any questions when using GS-Box, please contact us.

    Team Forum(BBS):
       ZJU-China 2014 Team Forum on ZJU Sever
    Post Address:
       Biolab Center Room 413, ZJU Zijin'gang Campus, Yuhang Tang Road No.866, Hangzhou, Zhejiang
    Email Address:
       zjuchina2014 @ 163.com







Solutions


As you see, we built 2 parts to help biologists to insert their gene of interest( GOI ) into the chromosome. When we built this tool, we thought about a question: can Gene-Socket only insert simple genes like GFP into chromosome? Now, we can announce that the answer is "No". With the help of Gene-Socket, we can build kinds of gene circuits no matter how complex they are.


If we just want to insert one part into the chromosome, what should we do? We can add two homeoregions next to the part, then link them to the part BBa_k1433009. In this way, we can use Gene-Socket to insert the new gene-combination into chromosome. (See how we solve the problem in the picture). We call this occasion "Mode 1".


Now we want to build a more complex circuit. We want to insert a promoter, an RBS and a CDS. If we still use the old method, our promoter will not work. It seems that we need to find a new way. What if we change the homeoregions? We can replace the old promoter with a new one by designing the homeoregions. (See how we solve the problem in the picture). We call this occasion "Mode 2".


Well, what if our circuit contains a terminator? It will stop the gene expression and break our hearts. But if we link the circuit with a new part, BBa_k1433010, the problem seems to be solved. (See how we solve the problem in the picture). We call this occasion "Mode 3".


As you see, If you want to use GS-Box to insert your part into the chromosome,there are 3 classical mode for you.

  • Mode 1: You choose to use the our official promoter & terminator
  • Mode 2: Your don't want to use our promoter
  • Mode 3: Your part contains a terminator

With the methods that we have used above, we can solve most problems when we want to insert a gene-circuit into chromosome, but sometimes the situation may be more complex. We cannot list all of the situations for you, but we have given you the tool and the idea to solve a new problem. Join the designers’ team and enjoy it!



Example

Example 1:
I just want to insert a simple gene---GFP(see the picture below). This situation is very simple. According to "Solutions", this is the mode 1, and I need to modify it as the picture below.


Example 2:
I want to insert a circuit, which contains a promoter, a RBS and GFP(see the picture below). According to "Solutions", this is the mode 2, and I need to modify it as the picture below.


Example 3:
I want to insert a circuit which contains a RBS, a GFP and a terminator(see the picture below). According to "Solutions", this is the mode 3, and I need to modify it as the picture below.






Download

GS-Box is an useful web tool, it contains some fuctions that people often use. So we share all the codes of GS-Box(except images) to help other IGEMers to use GS-Box in their own computers or share with more people. As you see, we submit a ZIP named "all codes" below and you can download it for free. In the ZIP, there is a "Read me" txt, please read it before you use it. You can also download our database which is strictly chosen and the data is OK to use. Before you use the codes and the database, you need to install a local-BLAST, which is developed by NCBI.

ALL codes / Database



DIY YOUR OWN GENE-SOCKET




Step 1

(each no less than 20 bp)


Please provide each part's sequences:

Step 2

Please select the mode


If you don't know what these modes mean, please read "Solutions" carfully. Are you sure you have selected the right mode?

You shuld learn that your mode is for all of your parts. If you just want to change only one of them, Please read the "Example". Are you sure this mode suits for most of your parts?

Step 3

See The Result Below