Difference between revisions of "Team:Newcastle/Integrated Practices"
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<h2> Integrated Human Practices </h2> | <h2> Integrated Human Practices </h2> | ||
| − | <p> Human practices have played a very important role throughout the evolution of our experiment. Initially, for the creation of the microbial fuel cell we were planning on using | + | |
| − | <p> After a conversation with Dr | + | <p> Human practices have played a very important role throughout the evolution of our experiment. Initially, for the creation of the microbial fuel cell we were planning on using the <a href="http://www.store.reading.ac.uk/browse/extra_info.asp?compid=2&modid=1&catid=159&prodid=1292">University of Reading's yeast cells</a> instead of <i>Escherichia coli</i>. </p> |
| − | <p> The main conclusion we reached | + | |
| − | <p> | + | <p> After a conversation with Dr Simon Woods, <a href="http://www.ncl.ac.uk/peals/">Co-Director of the Policy, Ethics and Life Sciences Research Centre</a>, we began to understand the ethical implications of using yeast cells. Throughout the evolution of science, we have constantly, with incremental steps, been pushing the boundaries of science with the use of technology. Depending on who you ask, people have different attitudes towards what is considered to be “right” and “wrong” with regards to how we treat living organisms. </p> |
| − | <p> | + | |
| − | <p>In contrast to yeast | + | <p> The main conclusion we reached during our conversation with Dr Woods, was that people are uncomfortable with the use of humans and animals in scientific experiments due to their reproducibility. This directly correlated with concerns regarding the complexity of the life-form, and unforeseen complications from experimentation. </p> |
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| + | <p> Wandering down a hypothetical "spectrum of experimentally ethical organisms”, we encounter humans – animals – yeast – bacteria. Yeast cells possess a nucleus and as such are classified as eukaryotic organisms. Eukaryotes (human, animal, yeast) are classified as such because they possess a more complex cell structure than their prokaryotic (bacteria) counterparts. However, yeast cells grow and reproduce at a much faster rate than most eukaryotic cells, approximately <a href ="https://www.ncbi.nlm.nih.gov/books/NBK9917/">every 2 hours</a>. There are many different species and strains of yeast which also introduces areas for contamination. Certain strains cause skin irritation and some other strains can be fatal if they are ingested or inhaled. All that is required for a non-lethal strain to become lethal are a range of genetic mutations. However, the main area of concern regarding yeast is that it is freely accessible to the public. People are conducting synthetic biology experiments in the comfort of their own house. Take for example brewers, who brew beer in their garage. What is to happen if there was a mutation in the specific strain of yeast they used? Imagine that we were no longer in a garage, but are now in a factory? What would happen if the yeast accidentally spilled, or this yeast somehow got transferred into baker’s yeast which was then used in peoples’ houses to bake bread? What are the potential adverse side effects that could arise from this? The main problem with the use of yeast is that: a) It is such a commonly used organism that we sometimes surpass the potential implications that could occur if something was to go wrong and b) the complexity of the life-form.</p> | ||
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| + | <p> Biologically yeast cells are more similar to human cells than bacteria are. Therefore we need to take into account the effect of its fast reproducibility and how prone offspring are to inherit any present mutations through a germline-like modification. The effects would affect not only the “offspring” of the yeast but also all succeeding generations.</p> | ||
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| + | <p>In contrast to yeast, bacterial cells are further down this line of experimental specimens. Bacterial cells are prokaryotes and are simpler compared to yeast cells. Bacteria also replicate faster than yeast cells, with a replication time between <a href ="https://www.ncbi.nlm.nih.gov/books/NBK9917/">of 20-60 minutes.</a> All cells from bacteria develop from a single cell of origin, and are therefore essentially clones of the original cell. Also the molecular control of the bacterial cell cycles is well regulated.</p> | ||
| + | |||
<p> In addition to the fore-mentioned, if we look at a <a href="https://static.igem.org/mediawiki/2016/e/e1/T--Newcastle--Timeline_iGEM.jpg">timeline </a> of organisms that we considered to be ethically, we are moving backwards. We have been using animals since the 1800s, but started using humans around the 1960s. In 2005 however NYC announced that they are no longer using humans in their experiments. In 2014 there was an uproar from PETA with the use of animals in experimentation. Consequently, if we are moving backwards in this line, bacteria are still the most ethical organisms to use for experiments.</p> | <p> In addition to the fore-mentioned, if we look at a <a href="https://static.igem.org/mediawiki/2016/e/e1/T--Newcastle--Timeline_iGEM.jpg">timeline </a> of organisms that we considered to be ethically, we are moving backwards. We have been using animals since the 1800s, but started using humans around the 1960s. In 2005 however NYC announced that they are no longer using humans in their experiments. In 2014 there was an uproar from PETA with the use of animals in experimentation. Consequently, if we are moving backwards in this line, bacteria are still the most ethical organisms to use for experiments.</p> | ||
| − | <p> After this conversation | + | |
| + | <p> After this conversation we therefore decided that the use of bacterial cells was more ethical, than the use of yeast cells in our project. </p> | ||
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Revision as of 19:42, 17 October 2016
Integrated Human Practices
Human practices have played a very important role throughout the evolution of our experiment. Initially, for the creation of the microbial fuel cell we were planning on using the University of Reading's yeast cells instead of Escherichia coli.
After a conversation with Dr Simon Woods, Co-Director of the Policy, Ethics and Life Sciences Research Centre, we began to understand the ethical implications of using yeast cells. Throughout the evolution of science, we have constantly, with incremental steps, been pushing the boundaries of science with the use of technology. Depending on who you ask, people have different attitudes towards what is considered to be “right” and “wrong” with regards to how we treat living organisms.
The main conclusion we reached during our conversation with Dr Woods, was that people are uncomfortable with the use of humans and animals in scientific experiments due to their reproducibility. This directly correlated with concerns regarding the complexity of the life-form, and unforeseen complications from experimentation.
Wandering down a hypothetical "spectrum of experimentally ethical organisms”, we encounter humans – animals – yeast – bacteria. Yeast cells possess a nucleus and as such are classified as eukaryotic organisms. Eukaryotes (human, animal, yeast) are classified as such because they possess a more complex cell structure than their prokaryotic (bacteria) counterparts. However, yeast cells grow and reproduce at a much faster rate than most eukaryotic cells, approximately every 2 hours. There are many different species and strains of yeast which also introduces areas for contamination. Certain strains cause skin irritation and some other strains can be fatal if they are ingested or inhaled. All that is required for a non-lethal strain to become lethal are a range of genetic mutations. However, the main area of concern regarding yeast is that it is freely accessible to the public. People are conducting synthetic biology experiments in the comfort of their own house. Take for example brewers, who brew beer in their garage. What is to happen if there was a mutation in the specific strain of yeast they used? Imagine that we were no longer in a garage, but are now in a factory? What would happen if the yeast accidentally spilled, or this yeast somehow got transferred into baker’s yeast which was then used in peoples’ houses to bake bread? What are the potential adverse side effects that could arise from this? The main problem with the use of yeast is that: a) It is such a commonly used organism that we sometimes surpass the potential implications that could occur if something was to go wrong and b) the complexity of the life-form.
Biologically yeast cells are more similar to human cells than bacteria are. Therefore we need to take into account the effect of its fast reproducibility and how prone offspring are to inherit any present mutations through a germline-like modification. The effects would affect not only the “offspring” of the yeast but also all succeeding generations.
In contrast to yeast, bacterial cells are further down this line of experimental specimens. Bacterial cells are prokaryotes and are simpler compared to yeast cells. Bacteria also replicate faster than yeast cells, with a replication time between of 20-60 minutes. All cells from bacteria develop from a single cell of origin, and are therefore essentially clones of the original cell. Also the molecular control of the bacterial cell cycles is well regulated.
In addition to the fore-mentioned, if we look at a timeline of organisms that we considered to be ethically, we are moving backwards. We have been using animals since the 1800s, but started using humans around the 1960s. In 2005 however NYC announced that they are no longer using humans in their experiments. In 2014 there was an uproar from PETA with the use of animals in experimentation. Consequently, if we are moving backwards in this line, bacteria are still the most ethical organisms to use for experiments.
After this conversation we therefore decided that the use of bacterial cells was more ethical, than the use of yeast cells in our project.
