Team:HKUST-Hong Kong/characterization.html

From 2011.igem.org

(Difference between revisions)
Line 96: Line 96:
9. <a href=http://partsregistry.org/Part:BBa_K524100><font color=blue>BBa_K524100</font></a> – bcr CDS + double terminator B0015: The gene product is responsible for multidrug efflux system that pumps out antibiotics. Effect of pump was documented by other researchers: it confers varying degrees of resistance to 5 antibiotics.<br><br>
9. <a href=http://partsregistry.org/Part:BBa_K524100><font color=blue>BBa_K524100</font></a> – bcr CDS + double terminator B0015: The gene product is responsible for multidrug efflux system that pumps out antibiotics. Effect of pump was documented by other researchers: it confers varying degrees of resistance to 5 antibiotics.<br><br>
-
<img src="https://static.igem.org/mediawiki/2011/4/42/Ust_NBBa_K524100.png" width="700px">
+
<img src="https://static.igem.org/mediawiki/2011/5/5d/Ust_BBa_K524100.png" width="700px">
<br >
<br >
Line 112: Line 112:
   A single nucleotide mutation, performed through  overlapping PCR, was introduced to eliminate a SpeI cutting site originally  present inside the construct between the promoter and CDS of RepA-ts protein. The  mutation has been successfully confirmed by restriction digestion test (Figure  1) and nucleotide sequencing.</p>
   A single nucleotide mutation, performed through  overlapping PCR, was introduced to eliminate a SpeI cutting site originally  present inside the construct between the promoter and CDS of RepA-ts protein. The  mutation has been successfully confirmed by restriction digestion test (Figure  1) and nucleotide sequencing.</p>
<p align="left"><strong>#Figure 1:  Digestion with SpeI for confirmation of mutation success</strong><br>
<p align="left"><strong>#Figure 1:  Digestion with SpeI for confirmation of mutation success</strong><br>
-
   <img src="Team_clip_image001.png" alt="" width="554" height="144"><strong> </strong></p>
+
   <img src="https://static.igem.org/mediawiki/2011/9/9d/Ust_Gel_photo_chara_oriR101.jpg" alt="" width="554" height="144"><strong> </strong></p>
<p align="left"><u>Characterization</u></p>
<p align="left"><u>Characterization</u></p>
<ul>
<ul>
Line 128: Line 128:
   To  quantitatively determine the elimination rate of plasmids bearing  oriR101&amp;repA101-ts, theoretically equal numbers of ori-ts- harboring  bacterial cells were spread on another set of LB+Amp (labeled as Amp_ori-ts) and  LB- only plates (labeled as LB_ori-ts). Then, single colonies formed on the  plates after overnight incubation were quantified. Ratio of colony count on Amp_ori-ts  plate to that on LB_ori-ts was then calculated. The same protocol was applied  to the same E.coli strain (DH10B) containing the plasmids pKD46 and pBlueScript  as controls.<br>
   To  quantitatively determine the elimination rate of plasmids bearing  oriR101&amp;repA101-ts, theoretically equal numbers of ori-ts- harboring  bacterial cells were spread on another set of LB+Amp (labeled as Amp_ori-ts) and  LB- only plates (labeled as LB_ori-ts). Then, single colonies formed on the  plates after overnight incubation were quantified. Ratio of colony count on Amp_ori-ts  plate to that on LB_ori-ts was then calculated. The same protocol was applied  to the same E.coli strain (DH10B) containing the plasmids pKD46 and pBlueScript  as controls.<br>
   The total elimination  rate of plasmid with thermosensitive replication origins (both mutated version  in pSB1AK3 and unmutated version in pKD46) is computed by the following  formula:<br>
   The total elimination  rate of plasmid with thermosensitive replication origins (both mutated version  in pSB1AK3 and unmutated version in pKD46) is computed by the following  formula:<br>
-
   <img src="Team_clip_image003.png" alt="" width="554" height="62"></p>
+
   <img src="https://static.igem.org/mediawiki/2011/0/0e/Ust_OriR101_equation.jpg" alt="" width="554"></p>
<ul>
<ul>
   <li>Characterization result</li>
   <li>Characterization result</li>
Line 136: Line 136:
</ul>
</ul>
<p align="left">Several sets of  serial dilution tests are done at 30°C, 33°C, 37°C and 42°C. The image proof  and the result summary are shown below.<br>
<p align="left">Several sets of  serial dilution tests are done at 30°C, 33°C, 37°C and 42°C. The image proof  and the result summary are shown below.<br>
-
   <strong>#Table 1: Qualitative Description of the</strong></p>
+
   <strong>#Figure 2: Qualitative Description of the temperature sensitivity test data.</strong> </p>
-
<table border="1" cellspacing="0" cellpadding="0" width="615">
+
 
-
  <tr>
+
<img src="https://static.igem.org/mediawiki/2011/c/c2/Ust_Ori-ts_testing_patch_plates.jpg" width="900px" align="middle">
-
    <td width="225" rowspan="2"><p align="center">&nbsp;</p></td>
+
 
-
    <td width="391" colspan="4"><p align="center">Testing Temperature</p></td>
+
-
  </tr>
+
-
  <tr>
+
-
    <td width="98"><p align="center">30°C</p></td>
+
-
    <td width="98"><p align="center">33°C</p></td>
+
-
    <td width="98"><p align="center">37°C</p></td>
+
-
    <td width="98"><p align="center">42°C</p></td>
+
-
  </tr>
+
-
  <tr>
+
-
    <td width="225"><p align="center">mutated oriR101&amp;repA101-ts<br>
+
-
      ori-ts</p></td>
+
-
    <td width="98"><p align="center">&nbsp;</p></td>
+
-
    <td width="98"><p align="center">&nbsp;</p></td>
+
-
    <td width="98"><p align="center">&nbsp;</p></td>
+
-
    <td width="98"><p align="center">&nbsp;</p></td>
+
-
  </tr>
+
-
  <tr>
+
-
    <td width="225"><p align="center">unmated oriR101&amp;repA101-ts<br>
+
-
      pKD46</p></td>
+
-
    <td width="98"><p align="center">&nbsp;</p></td>
+
-
    <td width="98"><p align="center">&nbsp;</p></td>
+
-
    <td width="98"><p align="center">&nbsp;</p></td>
+
-
    <td width="98"><p align="center">&nbsp;</p></td>
+
-
  </tr>
+
-
</table>
+
<p align="left">A robust growth  of ori-ts- positive cells was observed when the cells were incubated at 30°C.  This robustness - indicated by the density of bacterial colonies in each  droplet- covered region and associated with proper functioning of plasmid&rsquo;s  heat sensitive origin - steadily declined as the incubation temperature was  increased. Partial replication origin dysfunction was observed after 33°C  incubation and near- complete loss of function was observed at 37°C. Comparing  this trend with the testing result of the unmutated oriR101&amp;repA101-ts in  pKD46 (partial loss of function observed at 37°C, and near- complete function at  42°C), the mutated one shows higher thermosensitivity.</p>
<p align="left">A robust growth  of ori-ts- positive cells was observed when the cells were incubated at 30°C.  This robustness - indicated by the density of bacterial colonies in each  droplet- covered region and associated with proper functioning of plasmid&rsquo;s  heat sensitive origin - steadily declined as the incubation temperature was  increased. Partial replication origin dysfunction was observed after 33°C  incubation and near- complete loss of function was observed at 37°C. Comparing  this trend with the testing result of the unmutated oriR101&amp;repA101-ts in  pKD46 (partial loss of function observed at 37°C, and near- complete function at  42°C), the mutated one shows higher thermosensitivity.</p>
<ul>
<ul>

Revision as of 16:40, 5 October 2011


BioBricks Master List

&

Characterization Data




1. BBa_K524000 –oriR101 & repA101-ts: This heat sensitive origin of replication origin has been shown to be function at 30°C Partial loss of plasmid happens at 33°C, and complete loss of plasmid is observed at 37°C.


2. BBa_K524001 –pLac + RBS + sfGFP1-10: This contains coding DNA sequences for superfolder GFP amino residues 1-214 driven by RBS BBa_B0034 and pLac BBa_R0010.


3. BBa_K524002 –pLac + RBS + sfGFP11 + double terminator: This contains coding DNA sequences for superfolder GFP amino residues 215-238 driven by RBS BBa_B0034 and pLac BBa_R0010, with double terminator B0015 at the end.


4. BBa_K524003 – nadE gene + double terminator: an essential gene that encodes constitutive expressed NAD+ synthatase.


5. BBa_K524004 –pir gene: the pir gene encodes the autogenously regulated pi protein.


6. BBa_K524005 – pToolkit: A plasmid that is only maintained in strains with genotype pir+. The plasmid was modified from another plasmid pKD46, which has been shown to trigger DNA recombination and subsequent gene knockout under induction of arabinose.


7. BBa_K524006 –RBS + sfGFP1-10: This contains coding DNA sequences for superfolder GFP amino residues 1-214 driven by RBS BBa_B0034.


8. BBa_K524007 –RBS + sfGFP11 + double terminator: This contains coding DNA sequences for superfolder GFP amino residues 215-238 driven by RBS BBa_B0034, with double terminator B0015 at the end.


9. BBa_K524100 – bcr CDS + double terminator B0015: The gene product is responsible for multidrug efflux system that pumps out antibiotics. Effect of pump was documented by other researchers: it confers varying degrees of resistance to 5 antibiotics.



Characterization Data for BBa_K524000

Heat sensitive origin of replication (oriR101 & repA101-ts)

Abstract

oriR101 and repA101ts constitute a low copy origin of replication derived from the pSC101 replication origin. Initiation of replication at oriR101 is regulated in trans by the heat- labile protein product of the repA101ts, which denatures at 37°C. Due to this property, bacterial (hence plasmid) exposure to incubation temperature of 37°C would decrease the activity of this origin, while temperatures higher than 42°C would cause the construct to completely cease functioning. (Datsenko, K.A. and Wanner, B.L. 2000).

In its fabrication process, a point mutation was introduced to construct so as to make it compatible with Biobrick standard assembly requirements. Nevertheless, characterization results show that this mutation does not greatly impact its properties, causing only a slight increase in its thermosensitivity.

Construction of this part
This construct was cloned out from the pKD46 plasmid harboured in the E. coli strain BW25113 (courtesy of The Coli Genetic Stock Center). The function of its thermo- sensitive replication origin was first mentioned by Datsenko, K.A. and Wanner, B.L. (2000)
A single nucleotide mutation, performed through overlapping PCR, was introduced to eliminate a SpeI cutting site originally present inside the construct between the promoter and CDS of RepA-ts protein. The mutation has been successfully confirmed by restriction digestion test (Figure 1) and nucleotide sequencing.

#Figure 1: Digestion with SpeI for confirmation of mutation success

Characterization

  • Construct preparation for heat sensitivity test

Characterization of the oriR101&repA101-ts was done with the insert ligated to RFP reporter and harbored in partregistry’s standard assembly pSB1AK3 plasmid. The enzymes Pst1 and Sma1 were then used to cut out the normal replication origin (pMB1) of pSB1AK3 and part of its KanR gene. The linearized plasmid was then allowed to self- ligate and transformed to DH10b E. coli strain. Restriction digestion test, along with the presence of red fluorescence and absence of Kanamycin resistance, is used as an indicator for plasmid verification. The final construct used for thermosensitivity test is referred to as “ori-ts” for convenience.

  • Characterization method
    • Qualitative test

For construct thermosensitivity test, serial dilution was performed to well- grown overnight culture of ori- ts- positive cells. Dilutions done were aimed to give the following bacterial concentrations: ~1 bacterium/7μl, ~10 bacteria/7μl, ~100 bacteria/7μl, ~1000 bacteria/7μl, etc. A droplet 7μl in volume from each dilution dose in the series was applied on Amp plate and incubated at certain incubations temperatures (30°C, 33°C, 37°C and 42°C). To give us an idea about the accuracy of dilutions performed, the above protocol was repeated with LB- only plates instead of LB+Amp plates.
Quantitative test
To quantitatively determine the elimination rate of plasmids bearing oriR101&repA101-ts, theoretically equal numbers of ori-ts- harboring bacterial cells were spread on another set of LB+Amp (labeled as Amp_ori-ts) and LB- only plates (labeled as LB_ori-ts). Then, single colonies formed on the plates after overnight incubation were quantified. Ratio of colony count on Amp_ori-ts plate to that on LB_ori-ts was then calculated. The same protocol was applied to the same E.coli strain (DH10B) containing the plasmids pKD46 and pBlueScript as controls.
The total elimination rate of plasmid with thermosensitive replication origins (both mutated version in pSB1AK3 and unmutated version in pKD46) is computed by the following formula:

  • Characterization result
    • Qualitative test

Several sets of serial dilution tests are done at 30°C, 33°C, 37°C and 42°C. The image proof and the result summary are shown below.
#Figure 2: Qualitative Description of the temperature sensitivity test data.

A robust growth of ori-ts- positive cells was observed when the cells were incubated at 30°C. This robustness - indicated by the density of bacterial colonies in each droplet- covered region and associated with proper functioning of plasmid’s heat sensitive origin - steadily declined as the incubation temperature was increased. Partial replication origin dysfunction was observed after 33°C incubation and near- complete loss of function was observed at 37°C. Comparing this trend with the testing result of the unmutated oriR101&repA101-ts in pKD46 (partial loss of function observed at 37°C, and near- complete function at 42°C), the mutated one shows higher thermosensitivity.

    • Quantitative test

The primary result of the quantitative thermosensitive test and trend of the elimination rate of ori-ts is shown by the following graph

Conclusion
This pKD46- derived oriR101&repA101-ts displays obvious thermosensitive properties, which have seemed to intensified due to the point mutation introduced during the fabrication of the construct. The optimal incubation temperature for plasmid maintenance purpose is 30°C, whereas the recommended temperature for plasmid loss induction is 37°C or above.



Home

Our Project

Overview | Data Page
Experiments and Results
Strain Construction | Culture Tests | Modeling
Miscellaneous
Notebook

iGEM Resources

Acknowledgements
The Team
iGEM Member List | Contributions
Achievements
Medal Requirements | BioSafety
BioBricks
Master List & Characterization Data

Human Practice

Workshop | Survey