Difference between revisions of "Team:UMaryland/Description"

Revision as of 21:36, 10 September 2015

Safe and Inexpensive

Approaches to Advance Synthetic Biology

Hok/Sok

A Pladmid retention system

CHIP

Our homemade PCR

IL Study

A study across iGEM labs

Side projects

Other projects we've worked on

Abstract

Alternative methods of plasmid maintenance and PCR amplification accelerate the construction of new biodesigns, reduce cost, and avoid environmental hazards. Plasmids are typically maintained in cells by encoding enzymes that hydrolyze or otherwise detoxify antibiotics added to the medium. However, this process carries an inherent risk for spreading antibiotic resistance to native bacterial populations through lateral gene transfer. The Hok-Sok toxin-antitoxin system, a natural internal maintenance cassette relying on internal mRNA silencing, presents an alternative to common antibiotic-based methods since it does not rely on exogenous drugs. We are also developing an integrated, microcontrolled thermocycler using common household components. Using nichrome wire and a motorized fan for air circulation, the programmable prototype is an inexpensive, versatile thermocycler or plate incubator. Because the material and construction costs are a fraction of dedicated instruments, the newly developed unit will find broad application among nascent synthetic biologists in underfunded environments.

Hok/Sok

While present on a plasmid, the Hok-Sok system maintains plasmids through mRNA silencing. On the forward strand of the Hok-Sok cassette is the coding region for the Hok mRNA. Hok ("host killing") is a 52 amino acid toxin that is capable of permeating the cell membrane, causing a loss of electrochemical potential and cell death. The translation of Hok mRNA is constantly inhibited by Sok, an inhibitory RNA molecule that is transcribed on the reverse strand of the Hok-Sok cassette. Sok ("suppression of killing") is capable of forming a double-stranded RNA helix with the 5’-end of Hok mRNA, blocking the ribosome binding site and preventing translation. This RNA duplex is then recognized by RNAse III, leading to enzymatic degradation of the Hok transcript.

How does this lead to plasmid maintenance? Hok mRNA, due to a high degree of secondary structure, has a long half-life, measured at 20 minutes. Sok, on the other hand, has a half-life of only 30 seconds. The cell must thus retain the coding region for Sok in order to produce enough Sok to continue blocking Hok translation. If the plasmid is lost, then both the Hok and Sok coding regions will be lost; however, previously transcribed Hok mRNA will still be present. With previously transcribed Sok rapidly degrading, Hok mRNA will be translated, killing the daughter cell that did not maintain the plasmid.

ELI5:

When scientists change the DNA of bacteria, the bacteria don't like it and want to go back to normal. To force the bacteria to stay changed, scientists add antibiotics (the same ones you take when you're sick). Adding a lot of antibiotics can cause problems, like other bacteria getting sick and the bad DNA spreading (which we don't want). To make sure the bacteria stay changed WITHOUT using antibiotics, we developed Hok/Sok. It works the same as antibiotics does. If the bacteria tries to go back to normal, it dies. If the bacteria stays changed, it lives. The only difference between this system and antibiotics is 0% antibiotics are used.

Thermocycler

PCR is often a common tool in the laboratory environment. It is also a vital component in DNA amplification and any cloning procedure. However the majority of theses devices are bulky expensive machines that are rarely seen outside of bio based labs. This was the premise for the development of CHIP or Cheap Homemade Innovative PCR, development of a compact PCR machine that was as fast and proficient at amplifying DNA as lab based machines but for the fraction of the price and for teaching based applications. We are proud to say that we have been able to design a machine that will be completely open source and able to serve as a platform for DIY cloning procedures.

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 While present on a plasmid, the Hok-Sok system maintains plasmids through mRNA silencing. On the forward strand of the Hok-Sok cassette is the coding region for the Hok mRNA. Hok ("host killing") is a 52 amino acid toxin that is capable of permeating the cell membrane, causing a loss of electrochemical potential and cell death. The translation of Hok mRNA is constantly inhibited by Sok, an inhibitory RNA molecule that is transcribed on the reverse strand of the Hok-Sok cassette. Sok ("suppression of killing") is capable of forming a double-stranded RNA helix with the 5’-end of Hok mRNA, blocking the ribosome binding site and preventing translation. This RNA duplex is then recognized by RNAse III, leading to enzymatic degradation of the Hok transcript.</p>