Team:TUDelft/Conjugation Overview

From 2009.igem.org

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='''Module 1: Conjugation system'''=
='''Module 1: Conjugation system'''=
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The goal of the Conjugation module was to create a 'helper' plasmid which could conjugate a signal plasmid to other cells containing the helper plasmid. While this type of system has been hinted at in the past, it has never been implemented to to several reasons. Conjugative plasmids contain membrane bound protein known as 'entry exclusion' or 'surface exclusion' protein [[https://2009.igem.org/Team:TUDelft/Conjugation_References 5]] which prevent conjugation between two cells containing the same plasmid. Creating a system which can achieve our goal is not as simple as removing these proteins, as will be discussed in detail below.
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===Selecting the Conjugation system===
===Selecting the Conjugation system===
-
There are many different conjugation systems, with F and IncP being among the most used by previous iGEM teams. The IncP incompatibility group is further divided into two groups IncP-alpha aka Birmingham aka RP4 plasmid and the IncP-beta R751 plasmid. There are several reasons why the IncP system would be better suited for us:
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There are many different conjugation systems, with F and IncP being among the most used by previous iGEM teams. The IncP incompatibility group is further divided into two groups IncP-alpha aka Birmingham aka RP4 plasmid and the IncP-beta R751 plasmid. We chose to use the '''IncP-beta system R751 plasmid''' for several reasons:
-
*Smaller plasmid size (R751 is 53423[[https://2009.igem.org/Team:TUDelft/Conjugation_References 1]]) (RP4 is 60099[[https://2009.igem.org/Team:TUDelft/Conjugation_References 2]]) (F is 99159[[https://2009.igem.org/Team:TUDelft/Conjugation_References 3]])
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*F has a self-imposed fertility inhibition system (new donors fertile for only about 6 generations), IncP systems have no self-imposed fertility inhibition system[[https://2009.igem.org/Team:TUDelft/Conjugation_References 4]]
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* F has two surface exclusion proteins (TraT, TraS), while IncP has only one (trbK) [[https://2009.igem.org/Team:TUDelft/Conjugation_References 4]]
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*F has two surface exclusion proteins (TraT, TraS), IncP has only one (trbK)[[https://2009.igem.org/Team:TUDelft/Conjugation_References 4]]
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* F has a self-imposed fertility inhibition system (new donors fertile for only about 6 generations), while IncP systems have no self-imposed fertility inhibition system. [[https://2009.igem.org/Team:TUDelft/Conjugation_References 4]]
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* Smaller plasmid size:
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** R751 is 53423 bp [[https://2009.igem.org/Team:TUDelft/Conjugation_References 1]]  
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** RP4 is 60099 bp [[https://2009.igem.org/Team:TUDelft/Conjugation_References 2]]
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** F is 99159 bp [[https://2009.igem.org/Team:TUDelft/Conjugation_References 3]]
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* The R751 oriTR has been [http://partsregistry.org/wiki/index.php?title=Part:BBa_I714031 biobricked] and verified to be working.
===Selecting genes to knockout===
===Selecting genes to knockout===
'''Entry exclusion'''<br>
'''Entry exclusion'''<br>
-
The goal of this part of the project is to allow a message plasmid to be transmitted between cells containing conjugation helper plasmids (modified R751). In nature this occurs but at very low levels, due to the presence of entry exclusion proteins[[https://2009.igem.org/Team:TUDelft/Conjugation_References 5]]. These membrane-bound proteins block incoming transfers from cells containing the conjugative plasmid. Note that in order for the transfer to be blocked their presence is required only in the recipient. These entry exclusion proteins are present for two primary reasons: i) to prevent redundant transfer of the conjugative plasmid among a population of cells and ii) to prevent lethal zygosis[[https://2009.igem.org/Team:TUDelft/Conjugation_References 6]]. In R751 the gene trbK encodes for the entry exclusion protein in R751 and RP4[[https://2009.igem.org/Team:TUDelft/Conjugation_References 7]. Its presence is not required for conjugation to occur[[https://2009.igem.org/Team:TUDelft/Conjugation_References 8]]. Some papers have reported that knocking out the trbK genes in other plasmids did not affect the conjugation frequency: “transfer of the trbK mutant occurred at near-wild-type frequencies”[[https://2009.igem.org/Team:TUDelft/Conjugation_References 9]]. Given this information we propose to knockout the trbK gene.<br>
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As mentioned earlier, the goal of this part of the project is to allow a signal plasmid to be transmitted between cells containing conjugation helper plasmids (modified R751). In nature this does occur but at very low levels, due to the presence of entry exclusion proteins [[https://2009.igem.org/Team:TUDelft/Conjugation_References 5]]. These membrane-bound proteins block incoming transfers from cells containing the conjugative plasmid. Note that in order for the transfer to be blocked '''their presence is required only in the recipient'''. These entry exclusion proteins are present for two primary reasons:  
 +
* to prevent redundant transfer of the conjugative plasmid among a population of cells  
 +
* to prevent lethal zygosis [[https://2009.igem.org/Team:TUDelft/Conjugation_References 6]].  
 +
 
 +
In R751 the gene trbK encodes for the entry exclusion protein [[https://2009.igem.org/Team:TUDelft/Conjugation_References 7]. Its presence is not required for conjugation to occur [[https://2009.igem.org/Team:TUDelft/Conjugation_References 8]]. Some papers have reported that knocking out the trbK genes in other plasmids did not affect the conjugation frequency: "transfer of the trbK mutant occurred at near-wild-type frequencies"[[https://2009.igem.org/Team:TUDelft/Conjugation_References 9]]. Given this information, we proposed to knockout the trbK gene from R751.
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<br>
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'''Preventing the Transfer of the Helper Plasmid'''
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'''Lethal Zygosis'''<br>
'''Lethal Zygosis'''<br>
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What is lethal zygosis: “We find that diaminopimelic acid in the recipient membrane is released into the medium during bacterial matings, indicating that membrane damage was inflicted on the recipient by the donor, probably for forming a channel for DNA transfer. When the damage is extensive, as in matings with an excess of Hfr bacteria, the F- bacteria are killed (lethal zygosis). The transfer of a large amount of DNA in Hfr matings appears to enhance the killing"[[https://2009.igem.org/Team:TUDelft/Conjugation_References 6]].
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What is lethal zygosis? Essentially this is a problem caused when cells attempt to conjugate too much leading to damage in their membrane.
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By knocking out the trbK gene we may be exposing our cells to lethal zygosis. If this is indeed the case than knocking out one of the critical mating pair formation genes (trbB, trbC, trbD, trbE, trbF, trbG, trbH, trbI, trbJ, trbL) from the trb operon would prevent this. The gene trbC was selected for this due to its small size and position on the operon. trbC is known to encode for the pilin subunits needed for pilus formation. Given this information we propose to knockout the trbC gene as well.
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''"We find that diaminopimelic acid in the recipient membrane is released into the medium during bacterial matings, indicating that membrane damage was inflicted on the recipient by the donor, probably for forming a channel for DNA transfer. When the damage is extensive, as in matings with an excess of Hfr bacteria, the F- bacteria are killed (lethal zygosis). The transfer of a large amount of DNA in Hfr matings appears to enhance the killing."'' [[https://2009.igem.org/Team:TUDelft/Conjugation_References 6]]
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By knocking out the trbK gene we may be exposing our cells to lethal zygosis. If this is indeed the case than knocking out one of the critical mating pair formation genes (trbB, trbC, trbD, trbE, trbF, trbG, trbH, trbI, trbJ, trbL) from the trb operon would prevent this. The gene would be placed on the signal plasmid so that once a cell contining the helper plasmid has also received the signal plasmid, it will have all of the genes necessary to conjugate the signal plasmid further. We selected the gene trbC due to its small size and position on the operon. trbC is known to encode for the pilin subunits needed for pilus formation. So without this gene present the cells will not conjugate and will thus not be succeptible to lethal zygosis. We proposed to do the trbC knockout as out final knockout if lethal zygosis was shown to be an issue.
{{Template:TUDelftiGEM2009_end}}
{{Template:TUDelftiGEM2009_end}}

Revision as of 16:33, 19 October 2009

Module 1: Conjugation system

The goal of the Conjugation module was to create a 'helper' plasmid which could conjugate a signal plasmid to other cells containing the helper plasmid. While this type of system has been hinted at in the past, it has never been implemented to to several reasons. Conjugative plasmids contain membrane bound protein known as 'entry exclusion' or 'surface exclusion' protein [5] which prevent conjugation between two cells containing the same plasmid. Creating a system which can achieve our goal is not as simple as removing these proteins, as will be discussed in detail below.

Selecting the Conjugation system

There are many different conjugation systems, with F and IncP being among the most used by previous iGEM teams. The IncP incompatibility group is further divided into two groups IncP-alpha aka Birmingham aka RP4 plasmid and the IncP-beta R751 plasmid. We chose to use the IncP-beta system R751 plasmid for several reasons:

  • F has two surface exclusion proteins (TraT, TraS), while IncP has only one (trbK) [4]
  • F has a self-imposed fertility inhibition system (new donors fertile for only about 6 generations), while IncP systems have no self-imposed fertility inhibition system. [4]
  • Smaller plasmid size:
    • R751 is 53423 bp [1]
    • RP4 is 60099 bp [2]
    • F is 99159 bp [3]
  • The R751 oriTR has been [http://partsregistry.org/wiki/index.php?title=Part:BBa_I714031 biobricked] and verified to be working.

Selecting genes to knockout

Entry exclusion
As mentioned earlier, the goal of this part of the project is to allow a signal plasmid to be transmitted between cells containing conjugation helper plasmids (modified R751). In nature this does occur but at very low levels, due to the presence of entry exclusion proteins [5]. These membrane-bound proteins block incoming transfers from cells containing the conjugative plasmid. Note that in order for the transfer to be blocked their presence is required only in the recipient. These entry exclusion proteins are present for two primary reasons:

  • to prevent redundant transfer of the conjugative plasmid among a population of cells
  • to prevent lethal zygosis [6].

In R751 the gene trbK encodes for the entry exclusion protein [7. Its presence is not required for conjugation to occur [8]. Some papers have reported that knocking out the trbK genes in other plasmids did not affect the conjugation frequency: "transfer of the trbK mutant occurred at near-wild-type frequencies"[9]. Given this information, we proposed to knockout the trbK gene from R751.

Preventing the Transfer of the Helper Plasmid


Lethal Zygosis
What is lethal zygosis? Essentially this is a problem caused when cells attempt to conjugate too much leading to damage in their membrane.

"We find that diaminopimelic acid in the recipient membrane is released into the medium during bacterial matings, indicating that membrane damage was inflicted on the recipient by the donor, probably for forming a channel for DNA transfer. When the damage is extensive, as in matings with an excess of Hfr bacteria, the F- bacteria are killed (lethal zygosis). The transfer of a large amount of DNA in Hfr matings appears to enhance the killing." [6]

By knocking out the trbK gene we may be exposing our cells to lethal zygosis. If this is indeed the case than knocking out one of the critical mating pair formation genes (trbB, trbC, trbD, trbE, trbF, trbG, trbH, trbI, trbJ, trbL) from the trb operon would prevent this. The gene would be placed on the signal plasmid so that once a cell contining the helper plasmid has also received the signal plasmid, it will have all of the genes necessary to conjugate the signal plasmid further. We selected the gene trbC due to its small size and position on the operon. trbC is known to encode for the pilin subunits needed for pilus formation. So without this gene present the cells will not conjugate and will thus not be succeptible to lethal zygosis. We proposed to do the trbC knockout as out final knockout if lethal zygosis was shown to be an issue.