Davidson Missouri W

From 2007.igem.org

(Difference between revisions)
('''Proposed Construct with Cre/loxP''')
('''Proposed Construct with Cre/loxP''')
Line 100: Line 100:
-
The original plasmid has now lost all of the DNA between the two loxP sites. The pBad promoter (upstream of the first loxP site) has been moved just upstream of ribsosomal binding site and the cI gene (downstream of the second loxP site). This rearrangement will cause the transcription of cI, a gene that represses the Cro promoter -P(R)- in lamda phage [insert citation].
+
The original plasmid has now lost all of the DNA between the two loxP sites. The pBad promoter (upstream of the first loxP site) has been moved just upstream of ribsosomal binding site and the cI gene (downstream of the second loxP site). This rearrangement will cause the transcription of cI, a gene that represses the Cro promoter -P(R)- in lamda phage by binding to the first and second operator regions. [insert citation]  
By constructing a plasmid that transcribes Hin in the manner shown below, we can terminate the transcription of Hin (and the flipping of hixC sites) whenever a plasmid is excised from the original construct.
By constructing a plasmid that transcribes Hin in the manner shown below, we can terminate the transcription of Hin (and the flipping of hixC sites) whenever a plasmid is excised from the original construct.
Line 106: Line 106:
[[Image:Un-Repressed Hin Plasmid.jpg]]
[[Image:Un-Repressed Hin Plasmid.jpg]]
-
The plasmid containing Hin would have resistance to another antibiotic, such as Chloramphenicol, and would have a similar design to the cartoon above.
+
The plasmid containing Hin will have resistance to another antibiotic, such as Chloramphenicol, and would have a similar design to the cartoon above.
[[Image:Repressed Hin Plasmid.jpg]]
[[Image:Repressed Hin Plasmid.jpg]]
-
Once pBad was joined with the RBS and cI gene in the original plasmid, transcription of cI would occur, and transcription of Hin would be repressed. cI works by binding to the  Hin This would be a mechanism for stopping flipping once a solution had been found.
+
Once pBad is joined with the RBS and cI gene in the original plasmid, transcription of cI would occur, and transcription of Hin would be repressed. This would be a mechanism for stopping Hin-induced flipping once a solution had been found.
 +
 
 +
In order to build the proposed construct, a hixC site must be inserted into each reporter gene. Our lab has already successfully inserted hixC into GFP and retained its functionality. [insert citation] We have also found literature on the successful splitting of the cre gene. [insert citation]
== '''Resources / Citations'''==
== '''Resources / Citations'''==

Revision as of 23:30, 8 June 2007

===Davidson & Missouri Western Team Logos, iGEM2006===

EHOP.gif


Ihop.PNG



Contents

Team Meeting Notes

Western Meeting Notes 051407 to Present [1]

Students

Logo.gif

• Will DeLoache, Junior Biology Major, [2]

• Oyinade Adefuye, Senior Biology Major, [3]

• Jim Dickson, Junior Math and Economics Major, [4]

• Amber Shoecraft, Math Major, [5]

• Andrew Martens, Senior Biology Major, [6]

• Michael Waters, Sophomore Biology Major, [7]


Header 01.gif


• Jordan Baumgardner, Junior Biology, Biochemistry/Molecular Biology Major, [8]

• Ryan Chilcoat, Junior Biology Major (Health Sciences), [9]

• Tom Crowley, Senior Biochemisty/Molecular Biology Major, [10]

• Lane H. Heard, Central High School graduate, [11]

• Nickolaus Morton, Junior Chemistry Major, [12]

• Michelle Ritter, Junior Mathematics Major, [13]

• Jessica Treece, Junior Biology Major (Health Sciences), [14]

• Matthew Unzicker, Senior Biochemistry/Molecular Biology Major, [15]

• Amanda Valencia, Senior Biochem/Molecular Biology Major, [16]

Faculty

Logo.gif

• Malcolm Campbell [http://www.bio.davidson.edu/people/macampbell/macampbell.html], Professor, Department of Biology, [17]

• Karmella Haynes [http://www.bio.davidson.edu/people/kahaynes/kahaynes.html], Visiting Assistant Professor, Department of Biology, [18]

• Laurie Heyer [http://www.davidson.edu/math/heyer/], Associate Professor, Department of Mathematics, [19]

Shipping Address: Malcolm Campbell, Biology Dept. Davidson College, 209 Ridge Road, Davidson, NC 28036 [(704) 894-2692]


Header 01.gif

• Todd Eckdahl [http://staff.missouriwestern.edu/~eckdahl/], Professor, Department of Biology, [20]

• Jeff Poet [http://staff.missouriwestern.edu/~poet/], Assistant Professor, Department of Computer Science, Mathematics, and Physics, [21]

Shipping Address: Todd Eckdahl, Biology Department, Missouri Western State University, 4525 Downs Drive, Saint Joseph, MO, 64507 [(816) 271-5873]

Project Overview

Hamiltonian Path Problem As a part of iGEM2006, a combined team from Davidson College and Missouri Western State University reconstituted a hin/hix DNA recombination mechanism which exists in nature in Salmonella as standard biobricks for use in E. coli. The purpose of the 2006 combined team was to provide a proof of concept for a bacterial computer in using this mechanism to solve a variation of The Pancake Problem from Computer Science. This task utilized both biology and mathematics students and faculty from the two institutions.

For 2007, we continue our collaboration and our efforts to manipulate E. coli into mathematics problem solvers as we refine our efforts with the hin/hix mechanism to explore another mathematics problem, the Hamiltonian Path Problem. This problem was the subject of a groundbreaking paper by Adelman in 1994 (citation below) where a unique Hamiltonian path was found in vitro for a particular directed graph on seven nodes. We propose to make progress toward solving the particular problem in vivo.

AdelmanGraph.JPG


Proposed Construct with Cre/loxP

HP Graph1.jpg

In order to determine if a Hamiltonian Path exists in the directed graph above, we propose a plasmid design similar to that shown below:


Plasmid before Excision.jpg

This cartoon represents a solved arangement of our proposed construct. Between the two pairs of BioBrick restriction enzyme sites lies a region containing eight flippable DNA fragments, each flanked by hixC sites (represented by the black, jagged rectangles). Each node of the graph represents one of the following genes: GFP (Green Flourescent Protein), Kanamycin Resistance, cre, pir200, and a transcription terminator. Each edge of the graph is included in the construct between two hixC sites. In the presence of Hin protein, flipping of the edges will produce random walks through the graph. When flipped into the correct orientation and located upstream of any transcription terminators, a given gene will be transcribed (denoted by a bold outline). In the solved arrangement shown above, a Hamiltonian Path is determined to exist in the graph because all genes are expressed, and no extra edges exist in the coding region. Extra edges in the coding region can be detected by gel electrophoresis.

The four reporter genes shown above will produce three distinct phenotypes. GFP will cause the E. Coli cells to glow green. Kanamycin resistance will allow the cells to grow in the presence of the antibiotic, Kanamycin. And cre and pir200 will cause the entire DNA region between the two loxP sites to be excised and amplified. When the cre gene is in the solved orientation, it produces the Cre protein. It has been demonstrated [instert citation] that Cre can bind to two separated loxP sites and excise the DNA in the middle, forming a new plasmid. If Cre was produced, then the plasmid above would be cut at its loxP sites, and produce the two plasmids shown below.

Excised Plasmid1.jpg

The DNA fragment located between the two loxP sites has now been excised and formed into a new plasmid. This solved plasmid is resistant to kanamycin (due to the solved orientation of the kanamycin resistance gene) and contains the gamma-ori origin of replication. It has been shown [insert citation] that pi-protein (transcribed by the pir200 gene) initiates amplification of plasmids with the gamma-ori origin of replication. Therefore, only when the pir200 gene is in the solved orientation will the excised plasmid will be amplified.

Orig Plasmid after excision.jpg


The original plasmid has now lost all of the DNA between the two loxP sites. The pBad promoter (upstream of the first loxP site) has been moved just upstream of ribsosomal binding site and the cI gene (downstream of the second loxP site). This rearrangement will cause the transcription of cI, a gene that represses the Cro promoter -P(R)- in lamda phage by binding to the first and second operator regions. [insert citation]

By constructing a plasmid that transcribes Hin in the manner shown below, we can terminate the transcription of Hin (and the flipping of hixC sites) whenever a plasmid is excised from the original construct.

Un-Repressed Hin Plasmid.jpg

The plasmid containing Hin will have resistance to another antibiotic, such as Chloramphenicol, and would have a similar design to the cartoon above.

Repressed Hin Plasmid.jpg

Once pBad is joined with the RBS and cI gene in the original plasmid, transcription of cI would occur, and transcription of Hin would be repressed. This would be a mechanism for stopping Hin-induced flipping once a solution had been found.

In order to build the proposed construct, a hixC site must be inserted into each reporter gene. Our lab has already successfully inserted hixC into GFP and retained its functionality. [insert citation] We have also found literature on the successful splitting of the cre gene. [insert citation]

Resources / Citations

Davidson's Wet Lab Protocols

Cool site for Breakfast [http://www.cut-the-knot.org/SimpleGames/Flipper.shtml]

Karen Acker's paper describing GFP and TetA(c) with Hix insertions [http://www.bio.davidson.edu/Courses/Immunology/Students/spring2006/Acker/Acker_finalpaperGFP.doc]

Bruce Henschen's paper describing one-time flippable Hix sites [http://www.bio.davidson.edu/Courses/genomics/2006/henschen/Bruce_Finalpaper.doc]

Intro to Hamiltonian Path Problem and DNA [http://www.ams.org/featurecolumn/archive/dna-abc2.html]

Adelman, LM. Molecular Computation of Solutions To Combinatorial Problems. Science. 11 November 1994. Vol. 266. no. 5187, pp. 1021 - 1024

Literature and Registry Research

Registry Search for Possible Promoters:

BBa_J24669 --- arabinose induced

BBa_R0082 --- Is upstream of the ompC porin gene

BBa_R0074 --- Penl regulated

BBa_I14017 --- P(Rhl)

BBa_I14018 --- P (Bla) --> amp resistance

BBa_J3902 --- Pr Fe (Pl + Pll rus operon)

BBa_R0077 --- CinR --> thought to have own terminator

BBa_R0078 --- CinR (no RBS)

BBa_R0062 --- luxR & HSL regulated -- luxpR

Possibly the use of Constitutive Promoter Family Members to strengthen other promoters.

Literature Search for Polycistronic Genes on Plasmids

Sol Operon http://www.jstage.jst.go.jp/article/bbb/71/1/58/_pdf

Transfer (tra) Operon http://www.pubmedcentral.nig.gov/picrender.fcgi?artid=1347297&blobtype=pdf

Oligopeptide Permease (opp) http://www.pubmedcentral.nig.gov/picrender.fcgi?artid=1087318&blobtype=pdf