Difference between revisions of "Part:BBa K1927002"

(Characterization of BBa_K1927002)
(Characterization of BBa_K1927002)
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'''Group:''' TJUSLS_China 2019<br>
 
'''Group:''' TJUSLS_China 2019<br>
 
'''Author:''' Dongxu Li<br>
 
'''Author:''' Dongxu Li<br>
'''Summary:''' AmpR belongs to the class A beta lactamase and is the most widely used selective marker in gene manipulation. It can hydrolyze ampicillin with specificity. Our team, TJUSLS_China, intends to screen inhibitors of the class B metallo-beta-lactamase. Details visible to our wiki: [https://2019.igem.org/Team:TJUSLS_China]. Due to our project requirement, we want to prove the difference hydrolysis capacity on antibiotic substrate of class A beta-lactamase(take the example of AmpR) and class B metallo-beta-lactamase(take the example of NDM-23). So we did the contrast experiment of the two enzymes. We chose faropenem, meropenem and cefazolin as the antibiotic substrate as the common substrate for the two enzyme. The data is as follows.<br>
+
'''Summary:''' AmpR belongs to the class A beta lactamase and is the most widely used selective marker in gene manipulation. It can hydrolyze ampicillin with specificity. Our team, TJUSLS_China, intends to screen inhibitors of the class B metallo-beta-lactamase. Details visible to our wiki:[https://2019.igem.org/Team:TJUSLS_China]. Due to our project requirement, we want to prove the difference hydrolysis capacity on antibiotic substrate of class A beta-lactamase(take the example of AmpR) and class B metallo-beta-lactamase(take the example of NDM-23). So we did the contrast experiment of the two enzymes. We chose faropenem, meropenem and cefazolin as the antibiotic substrate as the common substrate for the two enzyme. The data is as follows.<br>
 
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<p style="text-align: center;">
 
     [[File:T--TJUSLS China--AmpR-four.png|400px]] [[File:T--TJUSLS China--NDM 23 huojun.png|400px]]<br>
 
     [[File:T--TJUSLS China--AmpR-four.png|400px]] [[File:T--TJUSLS China--NDM 23 huojun.png|400px]]<br>

Revision as of 18:42, 16 October 2019


β lactamase AmpR

This gene conveys resistance to a common antibiotic called Ampicillin. In research it is often used as a selection marker

Usage and Biology

During the last decade antibiotic resistance has grown not only in incidents but also in awareness among the public. Rapid detection of these incidents is essential in the battle against sophisticated bacteria. Beta lactamases are enzymes that provides one of the many mechanisms of antibiotic resistance. Its for this reason regulary used among researchers as a selection marker. Bacteria that has been subjected to a procedure where foreign DNA is introduced, an antibiotic resistance gene is often use to check if colonies succsesfully has taken up the DNA and expressed it.

An example of this is ampicillin which is a highly used selection marker. The need for a selection marker in genetical engineering has been shown extremly usefull. By transforming a bacteria with a particular gene plus an antibiotic resistance gene it allows the researcher to know exactly which colonies that has taken up the DNA. By plating them out on agar plates with a given antibiotic, only the bacteria with the resistance gene can grow. Cells that did not manage to take up the DNA will die.

The mechanism of beta lactamases are oriented to the bacterial cell wall. This cell wall is unique to bacteria and consist of several components. Gram Positive and gram negative bacteria will have a different cell wall composition. In general, Gram-positive bacteria have a thicker layer of cell wall as well as a layer of cytoplasmic membrane. These layers consist of several conserved compounds such as monomeric disaccharide tetrapeptide, which are usually also those that will trigger an immunological defence respons of the host. Gram-negative bacteria (e.g., Escherichia coli) typically contain an outer membrane, an intervening periplasmic space where a thin layer of cell wall resides, and a layer of cytoplasmic membrane. Beta lactamases are usually produced both by gram negative and positive bacteria, either from plasmid or chromosomally. Beta lactamases are able to resist several types of antibiotics. These antibiotics all have in common a 4 - atom ring called beta lactam ring which the enzyme are able to hydrolyze and break open and the molecule looses its antibacterial function.

Penicillin, a regulary used antibiotic have such a beta lactam ring. This drug was the first antibiotic to be discovered and is still widely used today. This ring will bind to an enzyme (DD –transpeptidase) that is in charge of renewing the bacterial cell wall. Without this enzyme there will be no new formations of peptidoglycans for the cell wall and the integrity of the bacterial cell wall will be lost, it will eventually rupture and the bacteria will die. By hydrolyzing the ring, it will make the molecule unable to bind to the cell wall producing enzyme, thus the Penicillin have lost its destructive activity.

Characterization of BBa_K1927002

Group: TJUSLS_China 2019
Author: Dongxu Li
Summary: AmpR belongs to the class A beta lactamase and is the most widely used selective marker in gene manipulation. It can hydrolyze ampicillin with specificity. Our team, TJUSLS_China, intends to screen inhibitors of the class B metallo-beta-lactamase. Details visible to our wiki:[1]. Due to our project requirement, we want to prove the difference hydrolysis capacity on antibiotic substrate of class A beta-lactamase(take the example of AmpR) and class B metallo-beta-lactamase(take the example of NDM-23). So we did the contrast experiment of the two enzymes. We chose faropenem, meropenem and cefazolin as the antibiotic substrate as the common substrate for the two enzyme. The data is as follows.

T--TJUSLS China--AmpR-four.png T--TJUSLS China--NDM 23 huojun.png
Figure 1. Hydrolysis of three different antibiotics of E. coli with AmpR gene and E. coli with NDM-23 gene. The absorption values of faropenem, meropenem and cefazolin at different nanometer wavelengths were measured at 307nm, 300nm and 273nm, respectively. The concentration of every antibiotic was 250 μM. The OD of E. coli with AmpR protein was 0.4, and the E. coli with NDM-23 protein was 0.02.

T--TJUSLS China-faropenem--.png


Generation of biobrick BBa_K1927002 and BBa_K1927003
We wanted to calibrate our detection test with a biobrick of our own, in addition to the positive control (E. coli amp), negative control (E. coli without antibiotic resistance) and the purified protein from biobrick BBa_K1189031 as an additional positive control.

We retrieved the gene sequence for the Amp-gene from the standard E. coli vector pUC19 . The AmpR gene product is a β-lactamase class A which confers resistance to ampicillin, carbenicillin, and related antibiotics. The gene was designed to include prefix, suffix and start of vector sequence to make it ideal for Gibson assembly later on. Gene and primers was synthetized by IDT. We performed a Gibson assembly with the shipping vector pSB1C3 and our gene to generate biobrick BBa_K1927002.

Figure 1: LB agar plate with chloramphenicol for growth of transformed bacteria(TOP10) with BBa_K1927002. The insert was inserted into the shipping vector pSB1C3 by Gibson assembly.
Figure 2: Gel analysis of colony PCR with BBa_K1927002. The insert was inserted into the shipping vector pSB1C3 by using Gibson assembly. Lane 10 are DNA ladder (GeneRuler 1 kb DNA ladder, Thermo Fisher Scientific). Lane 11 are positive control (validated part BBa_K1927000). Lane 18-19 are different colonies from Gibson assembly. They show the appropriate band at approx 1000bp.



This particular gene is collected from puc19 vector and is an ampicillin resistance gene. The

sequence was collected online and sent for synthesizing to IDT.

Several methods were discussed on how to assemble the biobrick, and the team chose to

try out Gibson Assembly. The method has not yet been tested out by the registry, but has

been tried out by several teams who were succsessfull.

Advantages with Gibson Assembly compared to the standard assembly with resitriction

enzymes and gel purification is several.

- First of all its fewer steps compared to classical cloning, with fewer steps will DNA

loss and also other risks be reduces as well as price. - It requires few components and few manipulations

- Its suitable for combining several fragments at once

- The whole process takes shorter time

- No restriction site scar remains between the two DNA fragments

Disadvantages

- Primers must be ordered ahead. - PCR may be tricky

The team used Snap gene to design the appropriate primers. Snap gene is a software that

allows you to visualize and design your DNA sequences, it is perfect for primer design as

you can visualize all of your sequences at once and place your DNA into your desired vector

by only pressing a few buttons. The primers were then ordered online at IDT.

To perform Gibson assembly, the amount of insert needs to be 2-3 fold in excess compared to amount of vector.

T--UiOslo Norway--gibson3.png

Usually the smaller the volume of the reaction the better.
Gibson assembly has Sequence and Features

Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    INCOMPATIBLE WITH RFC[1000]
    Illegal BsaI site found at 716