Difference between revisions of "Safety/White List"

 
(19 intermediate revisions by 2 users not shown)
Line 5: Line 5:
  
 
<div class="column full_size">
 
<div class="column full_size">
<h2>White List</h2>
+
<h1>White List</h1>
 +
</div>
 +
 
 +
 
 +
<div class="clear extra_space"></div>
 +
 
 +
 
 +
<div class="column full_size">
 +
<div class="highlight gray turquoise_top ">
 +
<h3> Banned Organisms/Parts </h3>
 +
<p> Some of the most dangerous organisms and parts are not allowed in iGEM, even with a Check-In: </p>
 +
 
 +
<ul>
 +
<li>Human and primate cell lines that may contain pathogens</li>
 +
<li>Whole organisms from Risk Group 3</li>
 +
<li>Whole organisms from Risk Group 4</li>
 +
<li>Parts from Risk Group 4 organisms</li>
 +
</ul>
 +
 
 +
<p> If you find that you want to use a banned organism/part, you should redesign your project to use a safer substitute. Consult your advisor or contact us at <safety AT igem DOT org> to get advice on choosing a substitute.</p>
 +
 
 +
</div>
 +
</div>
 +
 
 +
 
 +
 
  
 +
<div class="clear extra_space"></div>
  
 +
<div class="column full_size">
 
<table>
 
<table>
 
<tr>
 
<tr>
Line 32: Line 59:
 
<tr>
 
<tr>
 
<td><ul>
 
<td><ul>
<li>Human and primate cell lines that have been tested and certified free of known pathogens (consult your vendor; see FAQ), including for example HEK293 cell lines.
+
<li>Human and primate cell lines that have been tested and certified free of known pathogens (consult your vendor; see <a href="https://2017.igem.org/Safety/White_List#FAQ">FAQ</a>), including for example HEK293 cell lines.
 
</li>
 
</li>
  
Line 45: Line 72:
 
</ul></td>
 
</ul></td>
 
<td><ul>
 
<td><ul>
<li>Other multicellular organisms (animals, plants, insects, etc.)</li>
+
<li>Other multicellular organisms (animals, plants, insects, etc.). In addition, permission is required from the Safety Committee for the use of animals in iGEM projects – see the <a href="https://2017.igem.org/Safety/Policies">Safety Policy </a> page for more details.
 +
</li>
 
</ul></td>
 
</ul></td>
 
</tr>
 
</tr>
Line 56: Line 84:
  
 
<tr id="parts">
 
<tr id="parts">
<th rowspan="6">Parts</th>
+
<th rowspan="7">Parts</th>
 
<td>All Registry parts, except those with a Red Flag placed by the Safety Committee</td>
 
<td>All Registry parts, except those with a Red Flag placed by the Safety Committee</td>
 
<td>Registry parts that have a Red Flag, which looks like <a href="http://parts.igem.org/Template:SafetyFlag">this</a>. A complete list of parts with Red Flags can be found <a href="http://parts.igem.org/Special:WhatLinksHere/Template:SafetyFlag">here</a>.
 
<td>Registry parts that have a Red Flag, which looks like <a href="http://parts.igem.org/Template:SafetyFlag">this</a>. A complete list of parts with Red Flags can be found <a href="http://parts.igem.org/Special:WhatLinksHere/Template:SafetyFlag">here</a>.
Line 85: Line 113:
  
 
<tr>
 
<tr>
<td>Cas9 (and other CRISPR-associated nucleases such as dCas9 and Cpf1), <b>EXCEPT</b> when it is integrated into the genome of a sexually reproducing organism</td>
+
<td>Cas9 (and other CRISPR-associated nucleases such as dCas9 and Cpf1), <b>EXCEPT</b> when it is integrated into the genome of a sexually reproducing eukaryotic organism</td>
<td>Cas9 (and other CRISPR-associated nucleases such as dCas9 and Cpf1) integrated into the genome of a sexually reproducing organism<br /><i>(including organisms that reproduce both sexually and asexually, such as yeast)</i></td>
+
<td>Cas9 (and other endonucleases, such as dCas9 and Cpf1) integrated into the genome (including through the use of gRNA) of a sexually reproducing organism (including organisms that reproduce both sexually and asexually, such as yeast). ANY team contemplating using Gene Drives needs permission from the Safety Committee – see the <a href="https://2017.igem.org/Safety/Policies">Safety Policy</a> page for more details. </i></td>
 
</tr>
 
</tr>
  
Line 101: Line 129:
 
Proteins or protein-coding genes in the following dangerous categories:
 
Proteins or protein-coding genes in the following dangerous categories:
 
     <ul>
 
     <ul>
     <li>Virulence factors <a href="#virulencefactor">(see FAQ)</a></li>
+
     <li>Virulence factors <a href="#virulencefactor">(see <a href="https://2017.igem.org/Safety/White_List#FAQ">FAQ</a>)</a></li>
 
     <li>Factors that help pathogens evade or shut down the immune system</li>
 
     <li>Factors that help pathogens evade or shut down the immune system</li>
 
     <li>Factors that help pathogens halt the host's DNA/RNA replication, transcription, or translation</li>
 
     <li>Factors that help pathogens halt the host's DNA/RNA replication, transcription, or translation</li>
Line 110: Line 138:
 
</td>
 
</td>
 
</tr>
 
</tr>
 +
 +
<tr>
 +
<td>Anti-microbial resistance factors and associated sequences in common use as a research tool. For example, ampicillin resistance commonly used as a <a href="http://blog.addgene.org/plasmids-101-everything-you-need-to-know-about-antibiotic-resistance-genes"> selectable marker</a>.
 +
</td>
 +
 +
<td>
 +
Other anti-microbial resistance factors, in particular any sequence associated to resistance against commonly used anti-microbial therapies – see the <a href="https://2017.igem.org/Safety/Policies">Safety Policy</a> page for more details. For example see the <a href="https://2016.igem.org/Team:UiOslo_Norway"> 2016 UIOslo team</a> worked with a <a href="http://parts.igem.org/Part:BBa_K1927000">B carbapenemase resistance factor</a>, the spread of which is an increasing public <a href="http://www.gov.uk/government/uploads/system/uploads/attachment_data/file/396227/hpr0215_amr-ers.pdf">health challenge</a>.
 +
</td>
 +
</tr>
 +
 +
  
 
<tr>
 
<tr>
Line 121: Line 160:
  
  
 
<div class="clear"></div>
 
<div class="clear"></div>
 
<div class="clear"></div>
 
<div class="clear"></div>
 
  
  
 +
<div class="clear extra_space"></div>
 +
<div class="line_divider"></div>
 +
<div class="clear extra_space"></div>
  
  
 
<div class="column half_size">
 
<div class="column half_size">
<div class="highlight gray turquoise_top">
+
<h2 id="FAQ"> FAQs </h2>
<h2> FAQs </h2>
+
 
<h5> What if I'm not sure whether my organism/part requires a Check-In?</h5>
 
<h5> What if I'm not sure whether my organism/part requires a Check-In?</h5>
 
<p>Ask us! Contact safety AT igem DOT org. Alternatively, because the Check-In form is short, you could choose to send a Check-In even if you are unsure.</p>
 
<p>Ask us! Contact safety AT igem DOT org. Alternatively, because the Check-In form is short, you could choose to send a Check-In even if you are unsure.</p>
Line 147: Line 183:
  
  
</div>
 
</div>
 
  
<div class="column half_size">
 
<div class="highlight gray turquoise_top">
 
<h4>Banned Organisms/Parts</h4>
 
<p>Some of the most dangerous organisms and parts are not allowed in iGEM, even with a Check-In:</p>
 
<br>
 
<ul>
 
<li> Human and primate cell lines that may contain pathogens </li>
 
<li>Whole organisms from Risk Group 3</li>
 
<li>Whole organisms from Risk Group 4</li>
 
<li>Parts from Risk Group 4 organisms</li>
 
</ul>
 
<br>
 
<p>If you find that you want to use a banned organism/part, you should redesign your project to use a safer substitute. Consult your advisor or contact us at <span class="email">&lt;safety AT igem DOT org&gt;</span> to get advice on choosing a substitute.</p>
 
</div>
 
</div>
 
 
 
 
<div class="clear"></div>
 
 
<div class="column half_size">
 
  
 
<h5>What if the White List changes during the summer?</h5>
 
<h5>What if the White List changes during the summer?</h5>
Line 194: Line 207:
 
</p>
 
</p>
  
<br>
 
 
<h5>We are going to use a lot of parts. May we combine them on a single Check-In?</h5><p>
 
If the parts all come from the same parent organism, you may combine them on a single Check-In, but make sure you give complete information about each part. If the parts come from different parent organisms, please send separate Check-Ins, or contact safety (at) igem (dot) org to ask about combining several Check-Ins into a spreadsheet.</p>
 
  
  
Line 208: Line 217:
  
 
<div class="column half_size">
 
<div class="column half_size">
 +
<div class="clear extra_space"></div>
 +
 +
<h5>We are going to use a lot of parts. May we combine them on a single Check-In?</h5><p>
 +
If the parts all come from the same parent organism, you may combine them on a single Check-In, but make sure you give complete information about each part. If the parts come from different parent organisms, please send separate Check-Ins, or contact safety (at) igem (dot) org to ask about combining several Check-Ins into a spreadsheet.</p>
 +
 +
 +
 
<h5>What about experiments with human subjects, such as surveys or software user-testing?<a id="humansubj"></a></h5> <p>
 
<h5>What about experiments with human subjects, such as surveys or software user-testing?<a id="humansubj"></a></h5> <p>
 
If you conduct any experiments with human subjects, you must follow your country's laws and your university's rules. You must get approval from the appropriate authorities, even for non-invasive experiments like surveys.</p>
 
If you conduct any experiments with human subjects, you must follow your country's laws and your university's rules. You must get approval from the appropriate authorities, even for non-invasive experiments like surveys.</p>

Latest revision as of 16:06, 28 June 2017

MENU
Loading...

White List

Banned Organisms/Parts

Some of the most dangerous organisms and parts are not allowed in iGEM, even with a Check-In:

  • Human and primate cell lines that may contain pathogens
  • Whole organisms from Risk Group 3
  • Whole organisms from Risk Group 4
  • Parts from Risk Group 4 organisms

If you find that you want to use a banned organism/part, you should redesign your project to use a safer substitute. Consult your advisor or contact us at to get advice on choosing a substitute.

White List (no Check-In required) Check-In Required (examples only!)
Whole Organisms
(including viral genomes)
  • Risk Group 1 microorganisms
    (For example: E. coli K-12, S. cerevisiae, B. subtilis, Lactobacillus spp.)
  • Risk Group 2 microorganisms
    (For example: Pseudomonas spp.)
  • Bacteriophages T2, T4, T7, M13, P1, ΦX174 (Phi X 174), and λ (Lambda), unless containing a virulence factor (see below)
  • Phagemids
  • Other viruses and bacteriophages
  • Human and primate cell lines that have been tested and certified free of known pathogens (consult your vendor; see FAQ), including for example HEK293 cell lines.
  • Cell lines from plants, fungi, or animals that are not primates (such as CHO cells or plant cells)
  • All primary isolated cells (that is, cells taken directly from the body of a multicellular organism)
  • C. elegans (nematodes)
  • Physcomitrella patens, Arabidopsis spp., Nicotiana spp.
  • Other multicellular organisms (animals, plants, insects, etc.). In addition, permission is required from the Safety Committee for the use of animals in iGEM projects – see the Safety Policy page for more details.
  • ...and anything not explicitly listed
Parts All Registry parts, except those with a Red Flag placed by the Safety Committee Registry parts that have a Red Flag, which looks like this. A complete list of parts with Red Flags can be found here.
Any part from a Risk Group 3 organism, regardless of its function
Non-protein-coding parts in the following categories:
  • Promoters, RBSes, Terminators
  • Binding sites for transcriptional regulators, endonucleases, and other proteins that bind to DNA
  • Aptamers and catalytic RNAs
  • CRISPR guide RNAs, microRNAs, small interfering RNAs, and short hairpin RNAs that do not target human genes
  • CRISPR guide RNAs, microRNAs, small interfering RNAs, and short hairpin RNAs that target human genes
  • Other non-protein-coding genes
Cas9 (and other CRISPR-associated nucleases such as dCas9 and Cpf1), EXCEPT when it is integrated into the genome of a sexually reproducing eukaryotic organism Cas9 (and other endonucleases, such as dCas9 and Cpf1) integrated into the genome (including through the use of gRNA) of a sexually reproducing organism (including organisms that reproduce both sexually and asexually, such as yeast). ANY team contemplating using Gene Drives needs permission from the Safety Committee – see the Safety Policy page for more details.
Prions from non-mammalian organisms, such as yeast Prions from mammals, such as human PrP
Proteins or protein-coding genes from animals, plants, or Risk Group 1 / Risk Group 2 microorganisms, EXCEPT those in the list of "dangerous categories" on the right Proteins or protein-coding genes in the following dangerous categories:
  • Virulence factors (see FAQ)
  • Factors that help pathogens evade or shut down the immune system
  • Factors that help pathogens halt the host's DNA/RNA replication, transcription, or translation
  • Factors that regulate the immune system, such as cytokines and interferons
  • Proteins that are toxic to humans
  • Enzymes that produce a molecule that is toxic to humans
Anti-microbial resistance factors and associated sequences in common use as a research tool. For example, ampicillin resistance commonly used as a selectable marker. Other anti-microbial resistance factors, in particular any sequence associated to resistance against commonly used anti-microbial therapies – see the Safety Policy page for more details. For example see the 2016 UIOslo team worked with a B carbapenemase resistance factor, the spread of which is an increasing public health challenge.
...and anything not explicitly listed

FAQs

What if I'm not sure whether my organism/part requires a Check-In?

Ask us! Contact safety AT igem DOT org. Alternatively, because the Check-In form is short, you could choose to send a Check-In even if you are unsure.


Where can I submit a Check-In?

Submit a Check-In here.


How do I find out the Risk Group of an organism?

Consult the Risk Group Guide.

What if the White List changes during the summer?

As we learn more, we might add things to the White List, but we will not remove things from the White List until after the Jamboree each year. So, if something is on the White List now, it will stay on the White List for the whole 2017 season.


Our project is to detect a dangerous organism. In order to test our project, we want to handle the dangerous organism (or parts of it), but it will not be part of what we build.
Do we still have to send a Check-In?

Yes. The Check-In requirement applies to all organisms and all parts that you will handle in the lab, even if they will not be part of your final project.


What exactly counts as a "whole organism"?

For the purposes of this White List, a "whole organism" is an entire cell or multicellular organism, whether alive or dead. Intact, isolated viral genomes are also considered "whole organism", because many viral genomes can be pathogenic if they enter a host cell, even without the viral capsule.
(Isolated non-viral genomes are considered parts. Individual nucleic acids and proteins are also parts.)


What is a virulence factor?

Virulence Factors of Pathogenic Bacteria is a good resource where you can look up virulence factors in some well-studied pathogens. It gives this definition: "Virulence factors refer to the properties (i.e., gene products) that enable a microorganism to establish itself on or within a host of a particular species and enhance its potential to cause disease. Virulence factors include bacterial toxins, cell surface proteins that mediate bacterial attachment, cell surface carbohydrates and proteins that protect a bacterium, and hydrolytic enzymes that may contribute to the pathogenicity of the bacterium."

We are going to use a lot of parts. May we combine them on a single Check-In?

If the parts all come from the same parent organism, you may combine them on a single Check-In, but make sure you give complete information about each part. If the parts come from different parent organisms, please send separate Check-Ins, or contact safety (at) igem (dot) org to ask about combining several Check-Ins into a spreadsheet.

What about experiments with human subjects, such as surveys or software user-testing?

If you conduct any experiments with human subjects, you must follow your country's laws and your university's rules. You must get approval from the appropriate authorities, even for non-invasive experiments like surveys.


We are going to handle an organism in lab, but we will only extract some DNA from it using PCR -- we won't use it as our chassis.
Do we still have to send a Check-In?

Yes. The Check-In requirement applies to all organisms and all parts that you will handle in the lab, even if they will not be part of your final project.


We are going to use a lot of parts. May we combine them on a single Check-In?

If the parts all come from the same parent organism, you may combine them on a single Check-In, but make sure you give complete information about each part. If the parts come from different parent organisms, please send separate Check-Ins, or contact safety (at) igem (dot) org to ask about combining several Check-Ins into a spreadsheet.


How can I find out if my cell line is free of pathogens? What pathogens should I be concerned about?

If you bought the cells from a vendor or a culture collection, then you can consult their catalog. Many catalogs will list safety and pathogen information -- if you cannot find it, contact the vendor. If you received the cells from another lab, you should find out where they originally came from.
Cell lines can contain harmful viruses. Sometimes, the viral genome is integrated into the cell's genome. Most viruses have a limited "host range", which means that they can only infect closely related species. Therefore, viruses living in a human or monkey cell line are likely to be dangerous to humans, but viruses living in an insect cell line probably cannot infect humans. If you work with a cell line from humans or other primates, you should check whether it contains viruses or viral genomic DNA. Viruses have Risk Group numbers, so if your cell line contains any viruses, you must handle it at the laboratory Safety Level that is appropriate for the highest Risk group virus it contains.
Some dangerous viruses that infect human cell lines: HBV (hepatitis B virus), HCV (hepatitis C virus), HIV (human immunodeficiency virus) 1 & 2, HTLV (human T-lymphotropic virus) 1 & 2, CMV (cytomegalovirus).