Team:Korea U Seoul/Notebook/Jul
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- | <h4><p id="title">Notebook : | + | <h4><p id="title">Notebook : July</p></h4> |
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<b> A. July, 4, 2012 </b> | <b> A. July, 4, 2012 </b> | ||
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Sigma32 : heat shock (approximately 42degree)<br> | Sigma32 : heat shock (approximately 42degree)<br> | ||
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- | <b> 1) Topic decided: detection and killing of Xanthomonas oryzae using quorum sensing of AX 21 </b> | + | <b> 1) Topic decided: detection and killing of <i> Xanthomonas oryzae</i> using quorum sensing of AX 21 </b> |
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- | Xanthomonas oryzae is pathogen which affects rice. In fact, Korea is the first country to sequence the genome of this pathogen due to its devastating effects on agriculture. | + | <i> Xanthomonas oryzae</i> is pathogen which affects rice. In fact, Korea is the first country to sequence the genome of this pathogen due to its devastating effects on agriculture. |
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- | We need AvrXa21 to run some tests. Since it is difficult to colonize Xanthomonas oryzae, we are planning to synthesize AvrXa21 chemically. On the other hand it is difficult to put sulfur to the protein, so we need to research more about that | + | We need AvrXa21 to run some tests. Since it is difficult to colonize <i> Xanthomonas oryzae</i>, we are planning to synthesize AvrXa21 chemically. On the other hand it is difficult to put sulfur to the protein, so we need to research more about that |
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- | (optional) a way to selectively kill Xanthomonas | + | (optional) a way to selectively kill <i> Xanthomonas oryzae</i> |
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- | A way to colonize Xanthomonas : Sanghoon Han | + | A way to colonize <i> Xanthomonas</i> : Sanghoon Han |
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Latest revision as of 02:15, 27 September 2012
Notebook : July
Today’s meeting was basically about logic gate using plasmid and molecular beacon.
Hyunkee Kim, Kyeongwoo Jang, Sanghoon Han, Jihoon Jung
Limitation: since input and output signal are identical, it is possible for input signal to diffuse into next logic gate.
Solution: Degradation of input signal before diffusing to next logic gate is required.
9 plasmids are needed for full adder.
Jeongmin Lee, Kyeongjin Kim, Wonuk Lee: DNA logic gateAs DNA gets longer, DNA synthesis is expensive and even more when protein is attached to DNA
Numerous of companies can make florescence DNA
MIDLAND, for example, can make DNA segment; $2.6 per base pair and $325 for protein attachment
Back up idea team ( Jihyong Nam, Byeongnam Min, Haerim Song, Dohoon Kwon)Microbacterial “Damagochi” : using sigma factor, bacteria can ‘express’ their current condition: developed idea based on brainstorming session
For example
Sigma32 : heat shock (approximately 42degree)
Sigma38 : starvation or stationary phase
2) Next meeting
Professor is on seminar this week, so our meeting with professor is delayed.
Further research and development of idea
logic gate based on plasmid: . Hyunkee Kim, Kyeongwoo Jang, Sanghoon Han, Jihoon Jung
logic gate based on DNA: Jeongmin Lee, Kyeongjin Kim
back up idea: Jihyong Nam, Byeongnam Min, Haerim Song, Dohoon Kwon Kim
Each team should submit one ppt files
Jeongmin Lee, Kyeongjin Kim: DNA logic gate
We had discussed with professor Choi, and he said that DNA logic gate is hard project. He added this project is not ingenious at al
Thus, we had time to think about other topics in the meetings
2) Brainstorming and discussion on new idea
Jihoon Jung: Expiration date bacteria: when dairy food is no longer good, bacteria which are attached to the product as a form of sticker will emit florescence
This idea is similar to bacteria timer. This idea is creative in a way that it also considers temperature and time. When temperature is up, growth of bacteria is stimulated and florescence will be synthesized faster and vice versa
Further research and development of idea & new team allocation
3) Next meeting
Wiki team: Byeongnam Min, Kyeongwoo Jang, Sanghoon Han
Sponsor team: Jeongmin Lee, Kyeongjin Kim, Jihyong Nam, Haerim Song
Human practice: Byeongnam Min
Lab team: Hyunkee Kim, Kyeongwoo Jang, Sanghoon Han, Jihoon Jung
Xanthomonas oryzae is pathogen which affects rice. In fact, Korea is the first country to sequence the genome of this pathogen due to its devastating effects on agriculture.
This bacteria primary use small AvrXa21 protein as a communication chemical
1. raxA, raxB, raxC, raxST are genes that synthesize proteins which are used for secrete AvrXa21
2. raxH, raxR are used for sensing AvrXa21
3. raxP, raxQ produce AvrXa21
We will use raxH, and raxR which detect AvrXa21 for cloning. When it detects AvrXa21 it will synthesize florescence
Once we are successful, we will replace bacteriocin instead of florescence.
We need AvrXa21 to run some tests. Since it is difficult to colonize Xanthomonas oryzae, we are planning to synthesize AvrXa21 chemically. On the other hand it is difficult to put sulfur to the protein, so we need to research more about that
Which promoter is responsible for binding with raxR output (TF) is unknown For cloning, EcoRI, XbaI, SpeI, PstI site should be excluded in genes, RaxRH has EcoRI, PstI restriction enzyme site, so we need mutant gene
2) Human practice
Synthetic biology presentation on February
Review article submit: BT news
CCP
Highschool student iGEM collaboration
KAIST Team collaboration
3) Next meeting
Does it work without surfur attached toAvrXa21 : everyone
promoter used for AvrXa21: everyone
(optional) a way to selectively kill Xanthomonas oryzae
A way to colonize Xanthomonas : Sanghoon Han
Science camp presentation: Haerim Song
Report for Sponsor: Jeongmin Lee, Kyeongjin Kim, Jihyong Nam, Haerim Song
Wiki team: Byeongnam Min, Kyeongwoo Jang, Sanghoon Han