Difference between revisions of "Team:Hong Kong UCCKE/Tour"

(Created page with "{{Hong_Kong_UCCKE/CSS/reset.css}} {{Hong_Kong_UCCKE/CSS/bootstrap.css}} {{Hong_Kong_UCCKE/CSS/style.css}} {{Hong_Kong_UCCKE/CSS/latofonts.css}} {{Hong_Kong_UCCKE/CSS/font-awes...")
 
 
(16 intermediate revisions by the same user not shown)
Line 15: Line 15:
 
             <div class="col-sm-12 page_header-text">
 
             <div class="col-sm-12 page_header-text">
 
                 <div>
 
                 <div>
                     <h1 data-toc-skip>UCCKE / Safety</h1>
+
                     <h1 data-toc-skip><span id="step2">UCCKE / Tour</span></h1>
                     <p>In this page, you will learn about what have we done to ensure safety.</p>
+
                     <p id="step3">In this page, you can learn how to navigate around our wiki.</p>
 
                 </div>
 
                 </div>
 
             </div>
 
             </div>
Line 63: Line 63:
 
             <div class="col-sm-9 col-xs-12">
 
             <div class="col-sm-9 col-xs-12">
  
                 <h2>Safe Project Design</h2>
+
                 <h2 id="step5">Safe Project Design</h2>
  
 
                 <p style="text-align:left !important;">Safety is always our first priority when carrying out the program. Although the only species we use is E.coli and C.elegans, which are only organisms which do not cause harm to human when used properly, we believe that there is still a danger when our bacteria is released into the public environment, especially to children and elderlies. For example, it may cause bacteria to develop antibiotics resistance and make more diseases incurable <sup><a href="#ref3b" id="ref3a">[3]</a></sup>. Therefore, we make sure that no bacteria or organism carrying our modified genes will be released out of the laboratory. To achieve this, the bacteria will always remain inside the laboratory; we always bring worms into the laboratory but not our bacteria outside the laboratory into the public environment. While doing any experiment with e.coli, we ensure the bacteria do not expose to the environment by setting up a sterile space using a Bunsen burner and working in the heated area. Also to keep the bacteria away from the open environment, we seal every used petri dishes with parafilm before long term storage.</p>
 
                 <p style="text-align:left !important;">Safety is always our first priority when carrying out the program. Although the only species we use is E.coli and C.elegans, which are only organisms which do not cause harm to human when used properly, we believe that there is still a danger when our bacteria is released into the public environment, especially to children and elderlies. For example, it may cause bacteria to develop antibiotics resistance and make more diseases incurable <sup><a href="#ref3b" id="ref3a">[3]</a></sup>. Therefore, we make sure that no bacteria or organism carrying our modified genes will be released out of the laboratory. To achieve this, the bacteria will always remain inside the laboratory; we always bring worms into the laboratory but not our bacteria outside the laboratory into the public environment. While doing any experiment with e.coli, we ensure the bacteria do not expose to the environment by setting up a sterile space using a Bunsen burner and working in the heated area. Also to keep the bacteria away from the open environment, we seal every used petri dishes with parafilm before long term storage.</p>
Line 88: Line 88:
 
}
 
}
 
</style>
 
</style>
 +
<div id="step6">
 
<p style="margin-top:20px;"><span class="label label-primary" style="font-size:20px;">Reference</span></p>
 
<p style="margin-top:20px;"><span class="label label-primary" style="font-size:20px;">Reference</span></p>
 
                 <p id="ref1b" class="ref-text-left">
 
                 <p id="ref1b" class="ref-text-left">
<a href="#ref1a">[1]</a>: iGEM. (2016). Safety/Risk Groups. Available: https://2016.igem.org/Safety/Risk_Groups. Last accessed 26th Aug 2016.</p>
+
<a href="#ref1a">[1]</a>: iGEM. (2016). Safety/Risk Groups. Available: https://2016.igem.org/Safety/Risk_Groups. Last accessed 26th Aug 2016.</p></div>
 
<p id="ref2b" class="ref-text-left"><a href="#ref2a">[2]</a>: iGEM. (2016). Safety/White List. Available: https://2016.igem.org/Safety/White_List. Last accessed 26th Aug 2016.</p>
 
<p id="ref2b" class="ref-text-left"><a href="#ref2a">[2]</a>: iGEM. (2016). Safety/White List. Available: https://2016.igem.org/Safety/White_List. Last accessed 26th Aug 2016.</p>
 
<p id="ref3b" class="ref-text-left"><a href="#ref3a">[3]</a>: University of Minnesota. (2003). Genetically Modified Organisms (GMO). Available: http://enhs.umn.edu/current/5103/gm/harmful.html. Last accessed 26th Aug 2016.</p>
 
<p id="ref3b" class="ref-text-left"><a href="#ref3a">[3]</a>: University of Minnesota. (2003). Genetically Modified Organisms (GMO). Available: http://enhs.umn.edu/current/5103/gm/harmful.html. Last accessed 26th Aug 2016.</p>
Line 98: Line 99:
 
<p id="ref7b" class="ref-text-left"><a href="#ref7a">[7]</a>: Paolo Vecchia, Maila Hietanen, Bruce E. Stuck Emilie van Deventer, Shengli Niu (2007). Protecting Workers from Ultraviolet Radiation. Germany: International Commission on Non-Ionizing Radiation Protection. P17-28.</p>
 
<p id="ref7b" class="ref-text-left"><a href="#ref7a">[7]</a>: Paolo Vecchia, Maila Hietanen, Bruce E. Stuck Emilie van Deventer, Shengli Niu (2007). Protecting Workers from Ultraviolet Radiation. Germany: International Commission on Non-Ionizing Radiation Protection. P17-28.</p>
 
<p id="ref8b" class="ref-text-left"><a href="#ref8a">[8]</a>: Paolo Vecchia, Maila Hietanen, Bruce E. Stuck Emilie van Deventer, Shengli Niu (2007). Protecting Workers from Ultraviolet Radiation. Germany: International Commission on Non-Ionizing Radiation Protection. p65.</p>
 
<p id="ref8b" class="ref-text-left"><a href="#ref8a">[8]</a>: Paolo Vecchia, Maila Hietanen, Bruce E. Stuck Emilie van Deventer, Shengli Niu (2007). Protecting Workers from Ultraviolet Radiation. Germany: International Commission on Non-Ionizing Radiation Protection. p65.</p>
 
  
  
Line 123: Line 123:
  
 
<div class="column full_size">
 
<div class="column full_size">
<h5>Safe Project Design</h5>
+
<h5 id="step5">Safe Project Design</h5>
  
 
<p>Does your project include any safety features? Have you made certain decisions about the design to reduce risks? Write about them here! For example:</p>
 
<p>Does your project include any safety features? Have you made certain decisions about the design to reduce risks? Write about them here! For example:</p>
Line 203: Line 203:
 
<style>
 
<style>
 
.wholehead, .teaminnumbercont, .mainfooter, .tourbefore {
 
.wholehead, .teaminnumbercont, .mainfooter, .tourbefore {
     background-color: #91d053 !important;
+
     background-color: #7453d0 !important;
 
}
 
}
 
nav[data-toggle='toc'] .nav > .active > a, nav[data-toggle='toc'] .nav > .active:hover > a, nav[data-toggle='toc'] .nav > .active:focus > a {
 
nav[data-toggle='toc'] .nav > .active > a, nav[data-toggle='toc'] .nav > .active:hover > a, nav[data-toggle='toc'] .nav > .active:focus > a {
     border-left: 1px solid #91d053 !important;
+
     border-left: 1px solid #7453d0 !important;
     color: #91d053 !important;
+
     color: #7453d0 !important;
 
}
 
}
 
nav[data-toggle='toc'] .nav > li > a:hover, nav[data-toggle='toc'] .nav > li > a:focus {
 
nav[data-toggle='toc'] .nav > li > a:hover, nav[data-toggle='toc'] .nav > li > a:focus {
     border-left: #91d053 !important;
+
     border-left: #7453d0 !important;
     color: #91d053 !important;
+
     color: #7453d0 !important;
 
}
 
}
 
.label-primary {
 
.label-primary {
     background-color: #75b734 !important;
+
     background-color: #7453d0 !important;
 
}
 
}
 
.header-down:hover {
 
.header-down:hover {
     color: #4f7b23 !important;
+
     color: #5e37c8 !important;
 
}
 
}
 
.copyrightfooter {
 
.copyrightfooter {
     background-color: #73a441 !important;
+
     background-color: #5e37c8 !important;
 
}
 
}
 
#return-to-top {
 
#return-to-top {
     background: rgba(145, 208, 83, 0.8) !important;
+
     background: rgba(116, 83, 208, 0.8) !important;
 
}
 
}
 
#return-to-top:hover {
 
#return-to-top:hover {
     background: rgb(145, 208, 83) !important;
+
     background: rgb(116, 83, 208) !important;
 
}
 
}
 
.mainfooter .fa:hover {
 
.mainfooter .fa:hover {
     color: #adcd8e !important;
+
     color: #5e37c8 !important;
 
}
 
}
 
.tourbefore:hover {
 
.tourbefore:hover {
     background-color: #73a441 !important;
+
     background-color: #5e37c8 !important;
 
}
 
}
 
</style>
 
</style>
Line 239: Line 239:
 
<div class="container">
 
<div class="container">
 
</html>
 
</html>
{{Hong_Kong_UCCKE/tourbefore|???|???|Attributions|Attributions}}
+
{{Hong_Kong_UCCKE/tourbefore|Home|Home|Team|Team}}
 
<html>
 
<html>
 
</div>
 
</div>
Line 284: Line 284:
 
tr.introjs-showElement > th {
 
tr.introjs-showElement > th {
 
   z-index: 9999999 !important;
 
   z-index: 9999999 !important;
 +
  color: #000;
 +
//689
 
}
 
}
  
Line 708: Line 710:
 
             steps: [
 
             steps: [
 
               {  
 
               {  
                 intro: "Hello! Welcome to the tour. This tour aims to tell you how to navigate around our wiki. Please click next and we will bring you to a sample page."
+
                 intro: "Hello! Welcome to the tour. This tour aims to tell you how to navigate around our wiki. Please click next and start the tour."
 
               },
 
               },
                
+
               {
 +
                element: '#step2',
 +
                intro: "This is the title of the page. It is located the same position in all pages.",
 +
                position: 'right'
 +
              },
 +
              {
 +
                element: '#step3',
 +
                intro: "This sentence concludes what is included in the page.",
 +
                position: 'bottom'
 +
              },
 +
              {
 +
                element: '#toc',
 +
                intro: "This part lists out all sections in the page, you can click on it to go directly to the section. I'll scroll to a demo section now to show you.",
 +
                position: 'left'
 +
              },
 +
              {
 +
                element: '#step5',
 +
                intro: "This is how the title of a section is displayed.",
 +
                position: 'bottom'
 +
              },
 +
              {
 +
                element: '#step6',
 +
                intro: "This is the reference part. You can click on the number before every reference statement to go back to the content. You can also click on the number in the content to get here.",
 +
                position: 'top'
 +
              },
 +
              {
 +
                element: '#step7',
 +
                intro: "This is the end of the tour, you can click on this button to go to the next page",
 +
                position: 'top'
 +
              },             
 
             ]
 
             ]
 
           });
 
           });
  
 
           intro.start();
 
           intro.start();
 +
 
       }
 
       }
 +
</script>
 +
<script>
 +
startIntro();
 
</script>
 
</script>
 
</html>
 
</html>

Latest revision as of 12:27, 19 October 2016

Safety Checklist

  • Read about Safe Project Design, Safe Lab Work, and Safe Shipment
  • Notice the few hard-and-fast rules we have: don't use organisms from Risk Group 3 or 4, and don't release our project into the wild
  • Know our local guidelines: talk to our team instructors and our institution's biosafety officers
  • Ask for help: email safety (at) igem (dot) org, or join the iGEM team for Virtual Open Office Hours

Safe Organisms

We use two kinds of organisms, Escherichia coli and Caenorhabditis elegans in our experiments. E.coli is categorized as a Risk Group 1 organism [1] while C.elegans is on the whitelist [2]. According to the official iGEM description, “Risk Group 1 organisms do not cause disease in healthy adult humans.” and organisms on the whitelist “do not cause any threat to the environment”. To make sure that everything is safe enough to use, we have always been talking to our lab technician, Mr. Ho xx, about the proper usage, storage and disposal methods.

Safe Project Design

Safety is always our first priority when carrying out the program. Although the only species we use is E.coli and C.elegans, which are only organisms which do not cause harm to human when used properly, we believe that there is still a danger when our bacteria is released into the public environment, especially to children and elderlies. For example, it may cause bacteria to develop antibiotics resistance and make more diseases incurable [3]. Therefore, we make sure that no bacteria or organism carrying our modified genes will be released out of the laboratory. To achieve this, the bacteria will always remain inside the laboratory; we always bring worms into the laboratory but not our bacteria outside the laboratory into the public environment. While doing any experiment with e.coli, we ensure the bacteria do not expose to the environment by setting up a sterile space using a Bunsen burner and working in the heated area. Also to keep the bacteria away from the open environment, we seal every used petri dishes with parafilm before long term storage.

Safe Lab Work

Besides of ensuring a safe project design, we are solicitous about our biosafety and general safety in our lab work. All secondary schools use biology laboratories with biosafety level 1 [4]. We also believe that safe lab practices are important, so we emphasize safety through maintaining a high level of personal hygiene and apply good microbiology techniques [5]. We wear lab coats and gloves while doing any experiment and wash our hands with soap before leaving the laboratory. To prevent any bacteria being left on the bench after experiments, we always use alcohol to wipe the bench thoroughly before we leave. (While doing any experiment with e.coli, we ensure the bacteria do not expose to the environment by setting up a sterile space using a Bunsen burner and working in the heated area. Also to keep the bacteria away from the open environment, we seal every used petri dishes with parafilm before long term storage.) We received safety training when joining the team, topics include risk assessment, general precautions, fire precautions, handling chemical spills, disposal of chemical wastes and experiments on biotechnology. Details of the training can be found in here. which we follow to the letter.

Other Safety Concerns

Some steps of our experiments require the use of UV light, whereupon exposure to UV radiation may result in sunburn, pigmentation of skin and slight discomfort [7]. To ensure our safety, we make sure that any parts of our body won’t be directly exposed to UV radiation; we will place a UV filter board [8] between us and the source of UV radiation so that it will be blocked from us.

Reference

[1]: iGEM. (2016). Safety/Risk Groups. Available: https://2016.igem.org/Safety/Risk_Groups. Last accessed 26th Aug 2016.

[2]: iGEM. (2016). Safety/White List. Available: https://2016.igem.org/Safety/White_List. Last accessed 26th Aug 2016.

[3]: University of Minnesota. (2003). Genetically Modified Organisms (GMO). Available: http://enhs.umn.edu/current/5103/gm/harmful.html. Last accessed 26th Aug 2016.

[4]: World Health Organisation (2004). Laboratory Biosafety Manual. 3rd ed. Geneva: World Health Organisation. p2-3,9-19.

[5]: World Health Organisation (2004). Laboratory Biosafety Manual. 3rd ed. Geneva: World Health Organisation. P69-93.

[6]: World Health Organisation (2004). Laboratory Biosafety Manual. 3rd ed. Geneva: World Health Organisation. P94-95.

[7]: Paolo Vecchia, Maila Hietanen, Bruce E. Stuck Emilie van Deventer, Shengli Niu (2007). Protecting Workers from Ultraviolet Radiation. Germany: International Commission on Non-Ionizing Radiation Protection. P17-28.

[8]: Paolo Vecchia, Maila Hietanen, Bruce E. Stuck Emilie van Deventer, Shengli Niu (2007). Protecting Workers from Ultraviolet Radiation. Germany: International Commission on Non-Ionizing Radiation Protection. p65.