BME494 Project Group3

ABSTRACT

There are various bacteria that can be found in pasteurized milk, that over time, cause the milk to spoil. These bacteria produce enzymes that break down milk components, such as lactose, lipids, and proteins, and cause off-putting smells and tastes. In this study, we utilized a plasmid containing a pH induced promoter in E. coli that senses when the environment is at the acidity level required for spoilage. Once transcription is activated, the bacteria will visually signal consumers with firefly luciferase. To incorporate this biosensor into milk products, we proposed to modify Lactobacilli, a heat-stable bacteria native to pasteurized milk, with our plasmid.

BACKGROUND

Sense of smell (or olfaction) is highly dependent on several factors. Mental health as well as physical health and age can affect a person’s ability to distinguish between various scents. Several studies show that men, older people, smokers, and schizophrenics tend to have an impaired sense of smell. It’s not uncommon for an unsuspecting person to find themselves sipping on a glass of spoiled milk because the expiration date was not correct or else he/she could not sense its spoilage. Besides this, some people do not enjoy the “after-smell” effects of sniffing spoiled milk. Ultimately, this would allow for a way to utilize the most utilized human sense (sight) in order to evaluate if the product (in this case milk) is unspoiled.

PROOF OF CONCEPT DESIGN

• Key Pre-existing Part:

The key pre-existing part we will be using is a part created by the 2006 iGEM team from Berkeley and also used by the 2010 Madras team. This key component is a constitutive promoter that is 35bp long and is induced by a pH range of 4.5-5. This promoter, part BBa_J23119, has been shown to overexpress luciferase when placed in the plasmid pGL3Basic and is the same model we will be using. Increased activity was not seen at a range of 5-6.5 and we will be modifying this assembly to act as an on-off switch when the pH value of milk reaches 5.0, instead of gradually expressing downstream genes as the pH decreases. The part is well characterized with a known sequence. We believe this part and the assembly that is constructed using the pGL3Basic promoter can be trusted based on data collected by both the 2006 Berkeley and 2010 Madras iGEM teams.
Assembly Scheme

File:BME494 placeholder

TESTING

Measurement

Expected Observations
File:BME494 placeholer.jpg

Tuning Our System
File:BME494 placehoder.jpg

HUMAN PRACTICES

Some future applications of such a project would be to add something to breast milk to ensure that it has not spoiled. Human breast milk often does not last longer than 8 days, but there is enough variation between women in respect to time of spoilage that such a visual indicator would be very useful to many mothers who do not wish to feed their younglings spoiled milk. Past the various milk-applications, this could be used in other food products likely to expire. Once the actual idea is conceptualized, the applications are infinite.

OUR TEAM

Your area of study/ academic program/ major, why you are taking BME494, and something interesting about yourself. You may add a link to your personal OWW page.

Major: Biomedical Engineering. She is taking BME 494 to improve her knowledge on Synthetic Biology.

Major: Molecular biosciences and biotechnology. I'm taking BME494 because synthetic biology will eventually be a lucrative field that develops many useful products. I want to learn more about the field and may attempt to join the 2012 ASU iGEM team.

Major: Biomedical Engineering. Synthetic biology sounded interesting. She likes to crochet in her free time.