Team:NGSS TR/project.html
From 2014hs.igem.org
PROJECT.DESCRIPTIONOur project is to construct a biological device that can be used to detect the existence of Streptococcus Pyogenes (S. Pyogenes) in a cheaper and faster way in comparison to currently used techniques. The construct can be used as a detecting device for bacteria or virus secreting protease by modifying the cleavage sequence in the array (for more information see parts). The name of the project comes from ‘Diagnosing S. Pyogenes’. [[File:project1.jpg]] width="1178" height="603" alt=""/> alt="3D computer-generated image of a Streptococcus Pyogenes. Content Provider(s): Center for Disease Control and Prevention/ Melissa Brower" width="1128" height="762" title="3D computer-generated image of a Streptococcus Pyogenes. Content Provider(s): Center for Disease Control and Prevention/ Melissa Browe"/> 3D computer-generated image of a Streptococcus Pyogenes. Content Provider(s): Center for Disease Control and Prevention/ Melissa Brower .PARTS
We accomplish the task of detecting the existence of S. Pyogenes with the base part OmpA-SpeB_Cleavage_Site.Research was conducted to discover the proteins secreted by Streptococcus Pyogenes; results showed that SpeB is one of the main virulence factor of S. Pyogenes, which is a cysteine proteinase functioning protein secreted by the bacteria.5 After further investigation on the mechanism of SpeB, we discovered that the amino acid sequence is cleaved by SpeB.6 If there is S. Pyogenes in the medium, SpeBs secreted by S. Pyogenes split the amino acid sequence including SpeB cleavage site, into two. By using this for our benefit, construct consisting of a cell wall protein, linker sequence and SpeB cleavage site is designed. This is the base part designed for S. Pyogenes detecting devices. To the end of this part, the protein, which will be used to show that the part is cleaved, should be added. After the SpeB cleavage site is cleaved, the amino acid sequence placed after the cleavage site can become free and start action. (see part OmpA-SpeB_Cleavage_Site-xylE).
This part is constructed upon the base part OmpA-SpeB_Cleavage_Site by adding Catechol 2,3-dioxygenase to the end of the sequence. xylE is thegene encoding the enzyme catechol-2,3-dioxygenase, which converts catechol, a cheap colorless substance, to the bright yellow product 2-hydroxy-cis,cis-muconic semialdehyde, if provided with oxygen. The sequence of xylE is taken from the partsregistry.9 In the existence of S. Pyogenes, SpeB secreted by the bacteria splits the amino acid sequence from the cleavage site, monomers of catechol-2,3-dioxygenase become liberated. Free monomers come together and form the tetramer form to start activation. By using this part, detecting organisms will be a lot easier. .MATH MODELLINGThis part is constructed upon the base part OmpA-SpeB_Cleavage_Site by adding Catechol 2,3-dioxygenase to the end of the sequence. xylE is thegene encoding the enzyme catechol-2,3-dioxygenase, which converts catechol, a cheap colorless substance, to the bright yellow product 2-hydroxy-cis,cis-muconic semialdehyde, if provided with oxygen. The sequence of xylE is taken from the partsregistry.9 In the existence of S. Pyogenes, SpeB secreted by the bacteria splits the amino acid sequence from the cleavage site, monomers of catechol-2,3-dioxygenase become liberated. Free monomers come together and form the tetramer form to start activation. By using this part, detecting organisms will be a lot easier.
.VISUAL MODELLINGThis part is constructed upon the base part OmpA-SpeB_Cleavage_Site by adding Catechol 2,3-dioxygenase to the end of the sequence. xylE is thegene encoding the enzyme catechol-2,3-dioxygenase, which converts catechol, a cheap colorless substance, to the bright yellow product 2-hydroxy-cis,cis-muconic semialdehyde, if provided with oxygen. The sequence of xylE is taken from the partsregistry.9 In the existence of S. Pyogenes, SpeB secreted by the bacteria splits the amino acid sequence from the cleavage site, monomers of catechol-2,3-dioxygenase become liberated. Free monomers come together and form the tetramer form to start activation. By using this part, detecting organisms will be a lot easier.
.RESULTS
.CONCLUSIONIn the end, we hope to produce a working OmpA-SpeB_Cleavage_Site-xylE construct along with our base part OmpA-SpeB_Cleavage_Site. If we manage to show that the SpeB cleavage part is working, we can easily detect S. Pyogenes. It is our hope that our construct will be able to reduce the cost of rapid detecting systems and allow fast detections. In the future, researches can use the benefits of our system to develop more effective and faster methods for detection, helping patients to have more comfortable treatment.
.REFERENCES1. Ferretti, Joseph J. "Complete Genome Sequence of an M1 Strain of Streptococcus Pyogenes." PNAS 98.8 (2001): 4658-663. Print.
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