Team:Newcastle/other

From 2010.igem.org

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Throughout the whole project, we use the strains ''E. coli'' and ''Bacillus Subtilis''. Both of the strains are known to be harmless. ''B. Subtilis'' is often used in the food industry, which shows that it is safe to be consumed. However, we carefully follow the Class I microbiology safety regulations in the UK while working on those strains.  
Throughout the whole project, we use the strains ''E. coli'' and ''Bacillus Subtilis''. Both of the strains are known to be harmless. ''B. Subtilis'' is often used in the food industry, which shows that it is safe to be consumed. However, we carefully follow the Class I microbiology safety regulations in the UK while working on those strains.  

Revision as of 20:23, 21 October 2010

iGEM Homepage Newcastle University BacillaFilla Homepage Image Map

Contents

Awards

Aims and Medals

Jamboree

Jamboree

Poster

Poster Requirements



UK iGEM Get Together

Programme

The Programme for UK Gathering at Newcastle

UK get together


Presentation

Our Presentation for the UK Gathering at Newcastle

Questions asked about our presentation:

  1. Would this project require us to change the strength of the filamentous cells in relation to different types of concrete?
  2. What is the strength of filamentous cells? How do filamentous cells actually help to fill up the cracks?
  3. How can repairing microcracks in concrete help to prevent a building collapsing in an earthquake?

For answers to these questions see Deena's concrete lecture

Photos

Presentation Photos

Team Photos

Team Building Photos

Random Photos

Ethics

Synthetic Biology: Background

Synthetic biology is a new research field that has a big potential in coming up with solutions for our everyday problems. However, ethical issues have been raised since the start of development in this field. Here we will discuss the ethical issues that our project will bring.

Biohackers

In this field, there are always people that view synthetic biology's negative aspects with concern, like worrying about the production of pathogens to be used as weapons. Their fears are that people will hack into systems to obtain data that might be used to do this. Therefore, we have to be very careful with the products of our research so that they remain safe in our hands.

Playing God!!!

In synthetic biology, we control the lives of bacteria. We insert proteins into bacteria to make them do what we want them to do. We make them kill themselves at the end of their job because they might be released into the environment and be harmful to other living things. It shows that we do not really treat the single-celled organism as life. However, we are coming up with a novel solution for the environment by healing concrete cracks.

Biosecurity

Bacteria might be harmful to the environment and living things around. Considering the fact that they are such small organisms and could not be spotted with the naked-eye if they are released in air, we make them kill themselves with the ‘kill switch’ biobrick. This can be very inconsiderate standing in a bacteria’s point of view, but it is the novel thing to do to avoid them hurting other living organisms.

Construction: Background

Cracks form in concrete structures as soon as they set. These cracks continue to grow in size if they are not repaired due to the weight of the structure, imposed load, freeze-thaw effect and wind loading. The bigger the cracks are, the higher the rate of water seeping into the steel reinforcements, causing them to corrode and thus weakening the structure. Therefore, we would like to use Bacilla Filla to fill up these cracks before things get worse.

Environmental Disaster

Concrete is a very widely used material in construction. In fact, cement that is used to make concrete is the second most widely used substance in the world after water. Some building structures have to be demolished because the cracks formed appear to be threatening the strength of the structures. These buildings have to be rebuilt in order to reinforce its tensile strength. This is an unsustainable method of recovery because cement is a material that requires a lot of energy to be produced. In the production of cement, the rotating kiln requires the temperature to be between 1350°C-1400°C, which not only uses up a lot of energy resources, but also produces a lot of carbon dioxide. These carbon dioxide contributes to the green house effect which then leads to global warming. Therefore, our project can help to reduce renovation of buildings which in turn lowers the amount of cement that has to be produced each year.

Post-Chernobyl Disaster

The nuclear power plant combustion that occurred in Chernobyl on 26 April 1986 has allowed radioactive elements to be released into the environment, threatening the health of people living within close proximity of the plant. Therefore, a shelter, the Shelter Implementation Plan (SIP) which will be completed in 2012 is currently being built to cover up the area that where the accident occurred so as to make it environmentally friendly. However, if cracks were to form, something that inevitably occurs for building structures, those radioactive elements will still be dispersed into the environment. With the help of our project, those cracks will be able to be filled-up and the area will be safe again.

Health and Safety

Laboratory

In iGEM, lab work is essential for the construction and characterization of numerous BioBricks, required for our project. However, in order to work safely in the lab, a Health and Safety assessment must be carried out in order to prevent any harm exposure, chemically (chemicals), biologically (bacteria/yeasts/fungi) and physically (machineries).

Our lab work for the summer is situated in the Centre for Bacteria Cell Biology (CBCB) in Newcastle University. The facility is regarded as Biosafety level 1, which is explained below:

  • Involves working with well-characterised agents, e.g. non-pathogenic E. coli
  • Does not normally cause diseases in healthy individuals
  • Bio-hazardous materials are kept minimal, e.g. gloves and sometimes facial protection against U.V light
  • The laboratory is not separated from the building
  • Contaminated materials are left in open rubbish containers
  • All lab materials are decontaminated by autoclave


Our project does not actually consist of hazardous agents. The focus of the project is to use Bacillus subtilis, which is not known to be a human pathogen, although rarely causes food poisoning when contaminated into food.


Here is a list of lab Health and Safety notes:


GENERAL

  • Always work with another person if the agents are hazardous
  • No smoking, drinking or eating in the lab
  • Benches should be kept clean and free of space
  • Close bottle lids after use every time
  • If spillages occur, clean up immediately


PERSONAL PROTECTION

  • Lab coat should be worn at all times in the lab (buttoned up) and wear goggles and gloves when required
  • U.V protection must be worn when working involving U.V
  • Long hairs must be tied back

HYGIENE

  • Wash hands after entering, and before leaving the lab thoroughly
  • Do not touch or put anything into your mouth


EMERGENCIES

  • Always know the location of fire exits and fire extinguishers, as well as first aid kits


STORAGE AND DISPOSAL

  • Pipette tips, broken glasses, tube should be thrown into sharps bin
  • Used cylinders should be auto-claved

Environment

The main problem in our project is that Bacillus subtilis may escape to the environment when we use them to spray onto the buildings. Even though the bacterium is not a human pathogen, it may still cause food contamination and rarely food poisoning. To overcome this problem, we plan to devise a kill-switch, which targets specifically Bacillus subtilis strains, and hopefully, making the project environmental friendly.

Safety Issues

These are the safety questions for the judging form:

  1. Would any of your project ideas raise safety issues in terms of:


  • Researcher Safety:

Throughout the whole project, we use the strains E. coli and Bacillus Subtilis. Both of the strains are known to be harmless. B. Subtilis is often used in the food industry, which shows that it is safe to be consumed. However, we carefully follow the Class I microbiology safety regulations in the UK while working on those strains.

We also got to make concrete in the structures lab, which requires some safety regulations to be obeyed. When we were in the structures lab, we wore safety goggles, steel toe cap boots and gloves, which are able to protect us from the accidents that are prone to happen in the lab.

We worked in the Centre for Bacterial Cell Biology (CBCB) Building of Newcastle University for the entire project. There is a general list of rules and regulations for everyone to follow in the CBCB lab, which can be found here. One of our advisors, Dr. Wendy Smith, gave us a guide through the safety issues on the first week, which is the introduction week in preparation for us to go to the lab.


  • Public Safety:
Our project is about repairing concrete cracks with engineered Bacillus Subtilis by spraying the strain of bacteria onto concrete cracks.