Difference between revisions of "Part:BBa T9002:Experience"

(Aberdeen 2014)
(User Reviews of BBa_T9002)
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=User Reviews of BBa_T9002=
 
=User Reviews of BBa_T9002=
  
=== Aberdeen 2014 ===
+
=== Sevilla 2011 ===
  
 
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{|width='80%' style='border:1px solid gray'
 
|-
 
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<partinfo>BBa_T9002 AddReview 3</partinfo>
+
<partinfo>BBa_T9002 AddReview 1</partinfo>
<I>Aberdeen 2014</I>
+
<I>Sevilla 2011</I>
 
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|width='50%' valign='top'|
  
==== Team Aberdeen iGEM 2014 Characterisation of BioBrick T9002 ====
+
<html><a name='t9002PV11'></a></html>
  
This BioBrick is a GFP Expresser Controlled by 3OC6HSL Receiver Device.
+
We used this construction as a model for a GFP-based characterization
  
BioBrick BBa_T9002 is a composite part encoding a quorum sensing (QS) receiver driving expression of green fluorescent protein.
+
method. We tried different concentrations, that turned to be too high,
  
 +
for it seems that the media was quite saturated.
  
==== Aims and Rationale ====
+
<nowiki>Fluorescence
T9002 was previously reported to exhibit increased GFP expression in the presence of AHL (N-acyl homoserine lactone).
+
  
We aimed to confirm GFP-expression responsiveness and dependence of AHL, and how the physical proximity of this QS receiver to any QS sender (producer of homoserine lactone) is facilitated by surface-binding affects quorum signalling.  
+
---------------------------------------------------------- O.D.
  
==== Materials and Methods ====
+
(600nm)</nowiki>
  
T9002 on a pSB1C3 backbone was rescued from Spring 2014 Distribution Plate 3-22J and transformed into XL1Blue ''E. coli'' competent cells, and selected on Chloramphenicol LB agar.
+
[[Image:Fluabs.png]]
  
Chloramphenicol LB liquid was innoculated with T9002 ''E. coli'' transformant and these were grown in conjunction with other ''E. coli'' transformed with the AHL ‘Sender’ plasmid [[Part:BBa_K1090000]] (also on pSB1C3). BBa_K1090000 codes for AHL-synthesising enzymes, and also constitutively expresses RFP.
 
  
===== Poly-L-lysine Cell Adhesion =====
+
Fluorescence/Absorbance ratio and average  of these data
To investigate QS signalling, and how it is affected by binding of sender and receiver bacteria to a solid surface, we immobilised our cells on a surface coated with poly-lysine:
+
  
# 50µl 0.01% Poly-Lysine was added to each well of a 96 well glass-bottom Plate (Whatman), and incubated at room temperature for 2 hours
+
[[Image:Fluoabsavrg.png]]
# Excess poly-lysine was removed and the plate washed three times with sterile water and allowed to dry at room temperature.
+
# E. coli cultures were grown overnight in a 37C shaking water bath, and diluted to an optical density-600nm(OD600) of 0.02.
+
# K1090000 ‘Sender’ transformants washed by centrifugation at 13000rpm for 1minute and resuspension in phosphate buffered saline (PBS), three times.
+
# Dual Sender-Receiver wells were diluted and combined in a colorimetric ratio to achieve a total OD600 of 0.02, with a range of 1:1 to 1:10,000,000 Sender:Receiver. 50µl total volume in Liquid Broth (LB) used per well. Incubated at 4C for 1 hour.
+
# Unbound cells removed by lightly shaking over waste and washed three times with Phosphate-Buffered Saline (PBS). 50µl fresh LB medium was added to each well.
+
# A FluoSTAR OPTIMA Fluoresence Plate Reader was used to measure Red(Excitation 544nm/Emission 612nm) and Green(Excitation 485nm/Emission 520nm) Fluorescence was recorded every 5 minutes for 7 hours; this incubates the samples at 37 degrees C and shakes (1mm double-orbital) for 30 seconds before each read.  
+
  
==== Results ====
 
K1090000 RFP expression RFP expression of K1090000 transformed E. coli was compared against untransformed XL1-Blue E. coli negative control and an RFP pSB1C3 plasmid positive control. Analysis of red fluorescence using a fluorimeter plate reader clearly shows that K1090000 constitutively expressed moderate amounts of RFP (Figure 1).
 
  
===== T9002 with AHL =====
+
Variation of the fluo/Abs ratio in time
T9002 E. coli was resuspended in conditioned growth medium containing AHL, derived from a filter sterilised K1090000 suspension. The T9002 transformants in this medium as expected displayed a slow, exponential increase in GFP, indicating the T9002 receiver cells were responding to the QS signalling caused by AHL in the medium. However, QS responses by the T9002 receivers were even more marked when T9002 transformants were co-cultured with K109000 QS sender transformants (Figure 2).
+
  
[[File:FIG1-T9002.png|600px]]
+
[[Image:Variationfluoabs.png]]
  
''Figure 1 - K1090000 E. coli constitutively expresses RFP. Red (Excitation 544nm/Emission 612nm) fluorescence of K1090000 E. coli (triangles), RFP positive control pSB1C3 (Circles), untransformed XL1-Blue E. coli (dashes).''
 
  
 +
[[Image:GFPgraph.png]]
  
T9002 with K1090000 We observed that optimal conditions for absolute green fluorescent production by T9002 receiver transformants were a ‘sender’ (S) to ‘receiver’ (R) ratio of 1:100; Figure 3. It was inferred that ratios greater or smaller than this resulted in too little AHL or undesirable competition effects, preventing optimal GFP fluorescence. An untransformed XL1-Blue E. coli (X) acted as control.
 
T9002 Receivers in the presence of K1090000 Sender exhibit significantly higher GFP response than T9002 with a control (non-AHL expressing untransformed XL1-Blue E. coli); Figure 4.
 
  
  
[[File:FIG2-T9002.png|600px]]
+
<!-- DON'T DELETE --><partinfo>BBa_T9002 EndReviews</partinfo>
 
+
''Figure 2 – Production of GFP by T9002, induced either by filtered AHL-containing culture medium, or by actively growing K1090000 sender transformants. AHL derived from culture medium is sufficient for slow rate T9002 Receiver GFP production (-), although T9002 GFP production was more efficient when paired with actively-growing K1090000 senders (circles). Mean GFP fluorescence of E.coli free in 50µl suspensions incubated at 37C, 1mm double-orbital shaking for 30 seconds every 5 minutes for 355 minutes.''
+
 
+
[[File:FIG3-T9002(3).png|600px]]
+
 
+
''Figure 3 – Greatest absolute fluorescence by T9002 transformants is observed in a Sender (S) 1:100 Receiver (R) cell number initial ratio. T9002 Receiver-produced GFP was compared with that produced when paired with an untransformed XL1-Blue E. coli (X) control or K1090000 Senders (circles), in triplicate. 50µl suspensions were incubated at 37C, 1mm double-orbital shaking for 30 seconds every 5 minutes for 355 minutes.''
+
 
+
[[File:FIG4-T9002.png|600px]]
+
 
+
''Figure 4 – K1090000 Sender E. coli induction increased GFP expression in T9002 Receivers. Growth started in cell number ratios of aliquots totalling OD600 0.02 densities, suspended in liquid LB. Untransformed XL1-Blue:Receiver 1:100 ratio (Filled Diamonds), Sender:Receiver 1:100 ratio (Open circles). Values are blank corrected.''
+
 
+
'''T9002 and K1090000 bound to a Poly-Lysine surface.''' Overall, immobilised Sender/Receiver pairs exhibited a greater extended rate of GFP production response, and higher absolute response after 7 hours than sender-receiver pairs free in suspension; Figure 5.
+
 
+
[[File:FIG5-T9002.png|600px]]
+
 
+
''Figure 5: Surface-immobilisation of sender-receiver QS tranformants results in improved GFP expression. Poly-L-lysine wells (triangles) had greater rate of response compared to cells free in suspension (circles). This was performed in a Sender 1:10 Receiver cell number ratio.''
+
 
+
 
+
==== Conclusions ====
+
 
+
* BBa_T9002 is an AHL receiver coupled to a GFP reporter, it has ‘leaky’ GFP expression.
+
* BBa_T9002 GFP production significantly increases in the presence of AHL.
+
* BBa_K1090000 ‘Sender’ is an effective AHL expressor that is able to activate BBa_T9002 ‘Receiver’ GFP production.
+
* BBa_K1090000 has moderate constitutive RFP expression.
+
* Poly-Lysine surface-immobilisation of T9002 and K1090000 ''E. coli'' extends the longterm production rate of GFP expression.
+
  
 
|}
 
|}
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|}
 
|}
  
=== Sevilla 2011 ===
+
=== Aberdeen 2014 ===
  
 
{|width='80%' style='border:1px solid gray'
 
{|width='80%' style='border:1px solid gray'
 
|-
 
|-
 
|width='20%' valign='top'|
 
|width='20%' valign='top'|
<partinfo>BBa_T9002 AddReview 1</partinfo>
+
<partinfo>BBa_T9002 AddReview 3</partinfo>
<I>Sevilla 2011</I>
+
<I>Aberdeen 2014</I>
 
|width='50%' valign='top'|
 
|width='50%' valign='top'|
  
<html><a name='t9002PV11'></a></html>
+
==== Team Aberdeen iGEM 2014 Characterisation of BioBrick T9002 ====
  
We used this construction as a model for a GFP-based characterization
+
This BioBrick is a GFP Expresser Controlled by 3OC6HSL Receiver Device.
  
method. We tried different concentrations, that turned to be too high,
+
BioBrick BBa_T9002 is a composite part encoding a quorum sensing (QS) receiver driving expression of green fluorescent protein.
  
for it seems that the media was quite saturated.
 
  
<nowiki>Fluorescence
+
==== Aims and Rationale ====
 +
T9002 was previously reported to exhibit increased GFP expression in the presence of AHL (N-acyl homoserine lactone).
  
---------------------------------------------------------- O.D.
+
We aimed to confirm GFP-expression responsiveness and dependence of AHL, and how the physical proximity of this QS receiver to any QS sender (producer of homoserine lactone) is facilitated by surface-binding affects quorum signalling.  
  
(600nm)</nowiki>
+
==== Materials and Methods ====
  
[[Image:Fluabs.png]]
+
T9002 on a pSB1C3 backbone was rescued from Spring 2014 Distribution Plate 3-22J and transformed into XL1Blue ''E. coli'' competent cells, and selected on Chloramphenicol LB agar.
  
 +
Chloramphenicol LB liquid was innoculated with T9002 ''E. coli'' transformant and these were grown in conjunction with other ''E. coli'' transformed with the AHL ‘Sender’ plasmid [[Part:BBa_K1090000]] (also on pSB1C3). BBa_K1090000 codes for AHL-synthesising enzymes, and also constitutively expresses RFP.
  
Fluorescence/Absorbance ratio and average  of these data
+
===== Poly-L-lysine Cell Adhesion =====
 +
To investigate QS signalling, and how it is affected by binding of sender and receiver bacteria to a solid surface, we immobilised our cells on a surface coated with poly-lysine:
  
[[Image:Fluoabsavrg.png]]
+
# 50µl 0.01% Poly-Lysine was added to each well of a 96 well glass-bottom Plate (Whatman), and incubated at room temperature for 2 hours
 +
# Excess poly-lysine was removed and the plate washed three times with sterile water and allowed to dry at room temperature.
 +
# E. coli cultures were grown overnight in a 37C shaking water bath, and diluted to an optical density-600nm(OD600) of 0.02.
 +
# K1090000 ‘Sender’ transformants washed by centrifugation at 13000rpm for 1minute and resuspension in phosphate buffered saline (PBS), three times.
 +
# Dual Sender-Receiver wells were diluted and combined in a colorimetric ratio to achieve a total OD600 of 0.02, with a range of 1:1 to 1:10,000,000 Sender:Receiver. 50µl total volume in Liquid Broth (LB) used per well. Incubated at 4C for 1 hour.
 +
# Unbound cells removed by lightly shaking over waste and washed three times with Phosphate-Buffered Saline (PBS). 50µl fresh LB medium was added to each well.
 +
# A FluoSTAR OPTIMA Fluoresence Plate Reader was used to measure Red(Excitation 544nm/Emission 612nm) and Green(Excitation 485nm/Emission 520nm) Fluorescence was recorded every 5 minutes for 7 hours; this incubates the samples at 37 degrees C and shakes (1mm double-orbital) for 30 seconds before each read.  
  
 +
==== Results ====
 +
K1090000 RFP expression RFP expression of K1090000 transformed E. coli was compared against untransformed XL1-Blue E. coli negative control and an RFP pSB1C3 plasmid positive control. Analysis of red fluorescence using a fluorimeter plate reader clearly shows that K1090000 constitutively expressed moderate amounts of RFP (Figure 1).
  
Variation of the fluo/Abs ratio in time
+
===== T9002 with AHL =====
 +
T9002 E. coli was resuspended in conditioned growth medium containing AHL, derived from a filter sterilised K1090000 suspension. The T9002 transformants in this medium as expected displayed a slow, exponential increase in GFP, indicating the T9002 receiver cells were responding to the QS signalling caused by AHL in the medium. However, QS responses by the T9002 receivers were even more marked when T9002 transformants were co-cultured with K109000 QS sender transformants (Figure 2).
  
[[Image:Variationfluoabs.png]]
+
[[File:FIG1-T9002.png|600px]]
  
 +
''Figure 1 - K1090000 E. coli constitutively expresses RFP. Red (Excitation 544nm/Emission 612nm) fluorescence of K1090000 E. coli (triangles), RFP positive control pSB1C3 (Circles), untransformed XL1-Blue E. coli (dashes).''
  
[[Image:GFPgraph.png]]
 
  
 +
T9002 with K1090000 We observed that optimal conditions for absolute green fluorescent production by T9002 receiver transformants were a ‘sender’ (S) to ‘receiver’ (R) ratio of 1:100; Figure 3. It was inferred that ratios greater or smaller than this resulted in too little AHL or undesirable competition effects, preventing optimal GFP fluorescence. An untransformed XL1-Blue E. coli (X) acted as control.
 +
T9002 Receivers in the presence of K1090000 Sender exhibit significantly higher GFP response than T9002 with a control (non-AHL expressing untransformed XL1-Blue E. coli); Figure 4.
  
  
<!-- DON'T DELETE --><partinfo>BBa_T9002 EndReviews</partinfo>
+
[[File:FIG2-T9002.png|600px]]
  
 +
''Figure 2 – Production of GFP by T9002, induced either by filtered AHL-containing culture medium, or by actively growing K1090000 sender transformants. AHL derived from culture medium is sufficient for slow rate T9002 Receiver GFP production (-), although T9002 GFP production was more efficient when paired with actively-growing K1090000 senders (circles). Mean GFP fluorescence of E.coli free in 50µl suspensions incubated at 37C, 1mm double-orbital shaking for 30 seconds every 5 minutes for 355 minutes.''
 +
 +
[[File:FIG3-T9002(3).png|600px]]
 +
 +
''Figure 3 – Greatest absolute fluorescence by T9002 transformants is observed in a Sender (S) 1:100 Receiver (R) cell number initial ratio. T9002 Receiver-produced GFP was compared with that produced when paired with an untransformed XL1-Blue E. coli (X) control or K1090000 Senders (circles), in triplicate. 50µl suspensions were incubated at 37C, 1mm double-orbital shaking for 30 seconds every 5 minutes for 355 minutes.''
 +
 +
[[File:FIG4-T9002.png|600px]]
 +
 +
''Figure 4 – K1090000 Sender E. coli induction increased GFP expression in T9002 Receivers. Growth started in cell number ratios of aliquots totalling OD600 0.02 densities, suspended in liquid LB. Untransformed XL1-Blue:Receiver 1:100 ratio (Filled Diamonds), Sender:Receiver 1:100 ratio (Open circles). Values are blank corrected.''
 +
 +
'''T9002 and K1090000 bound to a Poly-Lysine surface.''' Overall, immobilised Sender/Receiver pairs exhibited a greater extended rate of GFP production response, and higher absolute response after 7 hours than sender-receiver pairs free in suspension; Figure 5.
 +
 +
[[File:FIG5-T9002.png|600px]]
 +
 +
''Figure 5: Surface-immobilisation of sender-receiver QS tranformants results in improved GFP expression. Poly-L-lysine wells (triangles) had greater rate of response compared to cells free in suspension (circles). This was performed in a Sender 1:10 Receiver cell number ratio.''
 +
 +
 +
==== Conclusions ====
 +
 +
* BBa_T9002 is an AHL receiver coupled to a GFP reporter, it has ‘leaky’ GFP expression.
 +
* BBa_T9002 GFP production significantly increases in the presence of AHL.
 +
* BBa_K1090000 ‘Sender’ is an effective AHL expressor that is able to activate BBa_T9002 ‘Receiver’ GFP production.
 +
* BBa_K1090000 has moderate constitutive RFP expression.
 +
* Poly-Lysine surface-immobilisation of T9002 and K1090000 ''E. coli'' extends the longterm production rate of GFP expression.
 
|}
 
|}

Revision as of 15:56, 18 September 2015

This experience page is provided so that any user may enter their experience using this part.
Please enter how you used this part and how it worked out.

User Reviews of BBa_T9002

Sevilla 2011

Sevilla 2011

We used this construction as a model for a GFP-based characterization

method. We tried different concentrations, that turned to be too high,

for it seems that the media was quite saturated.

Fluorescence ---------------------------------------------------------- O.D. (600nm)

Fluabs.png


Fluorescence/Absorbance ratio and average of these data

Fluoabsavrg.png


Variation of the fluo/Abs ratio in time

Variationfluoabs.png


GFPgraph.png


UNIQed503f6eb82c9dc3-partinfo-00000003-QINU

UNIPV-Pavia iGEM 2011

••

UNIPV-Pavia iGEM 2011

Antiquity. This review comes from the old result system and indicates that this part worked in some test.


2009 DNA Distribution quality control

The UNIPV-Pavia iGEM team sequenced T9002 part and found that it was

completely confirmed, while iGEM QC results classified it as

"inconsistent". DNA was resuspended from well 9A, kit plate 2,

transformed in TOP10 E. coli and amplified inoculating a single colony

from the grown LB agar plate in LB medium. Finally DNA has been

miniprepped from the grown culture and sent to a BMR Genomics (Padova,

Italy) for sequencing.

Experimental measurements

The UNIPV-Pavia iGEM team tested T9002 BioBrick in several working

conditions. Results are reported in BBa_F2620

Experience page.

The Brown iGEM team conducted tests on this part in the summer of 2007.

The results are depicted in the graphs below.

AHL.JPG

The first graph indicates that until a critical point is reached,

increasing AHL concentration does increase GFP output. This is most

easily noticeable between the concentrations of 20 nM, after which

point the amount of GFP produced by cells begins to decrease. This may

be due to one of two things: AHL quenches the signal from GFP, or too

much AHL disrupts the cell's functions in a way that either kills it or

prevents it from making as much GFP. This second hypothesis is

partially confirmed by the second graph, which shows that adding more

than 20 nM AHL causes a decline in cell density. On each graph, the

different colored lines represent different time points after AHL was

added to the cells. They are 4 hours, 5 hours, etc.


BioBrick BBa_T9002 is an HSL biosensor, which provides a non linear relationship between HSL input and Scell output. More precisely, the characteristic sigmoidal curve requires synthetic parameters for its accurate identification. These are the minimum and maximum values, the swtich point (i.e., the curve inflection point), and the upper and lower boundaries of linearity. This biosensor revealed greatly reliable, providing measurement repeatability and minimal experimental noise. Referring to its activation formula, the calibration curve is shown below.


Minimum [Scell] Maximum [Scell] Switch point [nM] Lower boundary of linearity [nM] Upper boundary of linearity [nM]
17.31 739.4 1.39 0.38 5.07


In order to determine the threshold sensitivity of T9002 biosensor, experiments were performed with several HSL inductions minimally interspaced in the region of low detectability. Hypothesizing that the inducer is 1:20 diluted (as for all of our tests), the minimum detectable HSL concentration is 3 nM.


This biosensor was used to measure HSL concentration for parts producing or degrading this signalling molecule. For each of these experiments, a calibration curve of the biosensor was built, inducing it with known HSL concentrations, evaluating for each of them the Scell signal and finally estimating the Hill curve parameters. Once identified the parameters, the unknown concentration of a sample can be evaluated from its Scell (provided that it has a value included in the linear zone of the biosensor), as shown below:

It is necessary, then, to multiply the measurement for the dilution factor used (in our experiments it was 20).

Aberdeen 2014

•••

Aberdeen 2014

Team Aberdeen iGEM 2014 Characterisation of BioBrick T9002

This BioBrick is a GFP Expresser Controlled by 3OC6HSL Receiver Device.

BioBrick BBa_T9002 is a composite part encoding a quorum sensing (QS) receiver driving expression of green fluorescent protein.


Aims and Rationale

T9002 was previously reported to exhibit increased GFP expression in the presence of AHL (N-acyl homoserine lactone).

We aimed to confirm GFP-expression responsiveness and dependence of AHL, and how the physical proximity of this QS receiver to any QS sender (producer of homoserine lactone) is facilitated by surface-binding affects quorum signalling.

Materials and Methods

T9002 on a pSB1C3 backbone was rescued from Spring 2014 Distribution Plate 3-22J and transformed into XL1Blue E. coli competent cells, and selected on Chloramphenicol LB agar.

Chloramphenicol LB liquid was innoculated with T9002 E. coli transformant and these were grown in conjunction with other E. coli transformed with the AHL ‘Sender’ plasmid Part:BBa_K1090000 (also on pSB1C3). BBa_K1090000 codes for AHL-synthesising enzymes, and also constitutively expresses RFP.

Poly-L-lysine Cell Adhesion

To investigate QS signalling, and how it is affected by binding of sender and receiver bacteria to a solid surface, we immobilised our cells on a surface coated with poly-lysine:

  1. 50µl 0.01% Poly-Lysine was added to each well of a 96 well glass-bottom Plate (Whatman), and incubated at room temperature for 2 hours
  2. Excess poly-lysine was removed and the plate washed three times with sterile water and allowed to dry at room temperature.
  3. E. coli cultures were grown overnight in a 37C shaking water bath, and diluted to an optical density-600nm(OD600) of 0.02.
  4. K1090000 ‘Sender’ transformants washed by centrifugation at 13000rpm for 1minute and resuspension in phosphate buffered saline (PBS), three times.
  5. Dual Sender-Receiver wells were diluted and combined in a colorimetric ratio to achieve a total OD600 of 0.02, with a range of 1:1 to 1:10,000,000 Sender:Receiver. 50µl total volume in Liquid Broth (LB) used per well. Incubated at 4C for 1 hour.
  6. Unbound cells removed by lightly shaking over waste and washed three times with Phosphate-Buffered Saline (PBS). 50µl fresh LB medium was added to each well.
  7. A FluoSTAR OPTIMA Fluoresence Plate Reader was used to measure Red(Excitation 544nm/Emission 612nm) and Green(Excitation 485nm/Emission 520nm) Fluorescence was recorded every 5 minutes for 7 hours; this incubates the samples at 37 degrees C and shakes (1mm double-orbital) for 30 seconds before each read.

Results

K1090000 RFP expression RFP expression of K1090000 transformed E. coli was compared against untransformed XL1-Blue E. coli negative control and an RFP pSB1C3 plasmid positive control. Analysis of red fluorescence using a fluorimeter plate reader clearly shows that K1090000 constitutively expressed moderate amounts of RFP (Figure 1).

T9002 with AHL

T9002 E. coli was resuspended in conditioned growth medium containing AHL, derived from a filter sterilised K1090000 suspension. The T9002 transformants in this medium as expected displayed a slow, exponential increase in GFP, indicating the T9002 receiver cells were responding to the QS signalling caused by AHL in the medium. However, QS responses by the T9002 receivers were even more marked when T9002 transformants were co-cultured with K109000 QS sender transformants (Figure 2).

FIG1-T9002.png

Figure 1 - K1090000 E. coli constitutively expresses RFP. Red (Excitation 544nm/Emission 612nm) fluorescence of K1090000 E. coli (triangles), RFP positive control pSB1C3 (Circles), untransformed XL1-Blue E. coli (dashes).


T9002 with K1090000 We observed that optimal conditions for absolute green fluorescent production by T9002 receiver transformants were a ‘sender’ (S) to ‘receiver’ (R) ratio of 1:100; Figure 3. It was inferred that ratios greater or smaller than this resulted in too little AHL or undesirable competition effects, preventing optimal GFP fluorescence. An untransformed XL1-Blue E. coli (X) acted as control. T9002 Receivers in the presence of K1090000 Sender exhibit significantly higher GFP response than T9002 with a control (non-AHL expressing untransformed XL1-Blue E. coli); Figure 4.


FIG2-T9002.png

Figure 2 – Production of GFP by T9002, induced either by filtered AHL-containing culture medium, or by actively growing K1090000 sender transformants. AHL derived from culture medium is sufficient for slow rate T9002 Receiver GFP production (-), although T9002 GFP production was more efficient when paired with actively-growing K1090000 senders (circles). Mean GFP fluorescence of E.coli free in 50µl suspensions incubated at 37C, 1mm double-orbital shaking for 30 seconds every 5 minutes for 355 minutes.

FIG3-T9002(3).png

Figure 3 – Greatest absolute fluorescence by T9002 transformants is observed in a Sender (S) 1:100 Receiver (R) cell number initial ratio. T9002 Receiver-produced GFP was compared with that produced when paired with an untransformed XL1-Blue E. coli (X) control or K1090000 Senders (circles), in triplicate. 50µl suspensions were incubated at 37C, 1mm double-orbital shaking for 30 seconds every 5 minutes for 355 minutes.

FIG4-T9002.png

Figure 4 – K1090000 Sender E. coli induction increased GFP expression in T9002 Receivers. Growth started in cell number ratios of aliquots totalling OD600 0.02 densities, suspended in liquid LB. Untransformed XL1-Blue:Receiver 1:100 ratio (Filled Diamonds), Sender:Receiver 1:100 ratio (Open circles). Values are blank corrected.

T9002 and K1090000 bound to a Poly-Lysine surface. Overall, immobilised Sender/Receiver pairs exhibited a greater extended rate of GFP production response, and higher absolute response after 7 hours than sender-receiver pairs free in suspension; Figure 5.

FIG5-T9002.png

Figure 5: Surface-immobilisation of sender-receiver QS tranformants results in improved GFP expression. Poly-L-lysine wells (triangles) had greater rate of response compared to cells free in suspension (circles). This was performed in a Sender 1:10 Receiver cell number ratio.


Conclusions

  • BBa_T9002 is an AHL receiver coupled to a GFP reporter, it has ‘leaky’ GFP expression.
  • BBa_T9002 GFP production significantly increases in the presence of AHL.
  • BBa_K1090000 ‘Sender’ is an effective AHL expressor that is able to activate BBa_T9002 ‘Receiver’ GFP production.
  • BBa_K1090000 has moderate constitutive RFP expression.
  • Poly-Lysine surface-immobilisation of T9002 and K1090000 E. coli extends the longterm production rate of GFP expression.