Part:BBa_K554008:Experience
Hemolysin D - HlyD
This part was used to [http://2011.igem.org/Team:UNICAMP-EMSE_Brazil/Results#Device_3_testing.2C_Protein_Secretion_System Device 3 testing, Protein Secretion System]
Device 3 testing, Protein Secretion System
The assembled devices related to secretion system (Hemolysin secretion system under control of SoxS – SoxS-HlyB-HlyD-TolC) were tested under laboratory conditions using GFP as reporter.
Methods
To access GFP secretion, competent E. coli DH5α strain cells were transformed simultaneously with a pSB1C3 vector (Chloramphenicol resistant) carrying both the sensor (Strong_Constitutive_promoter + RBS + SoxR + Terminator) and the effector (SoxS_promoter + RBS + GFP + HlyA + Terminator), and pSB1AK3 (Ampicillin resistant) carrying the secretion system (SoxS_promoter + RBS + HlyB + HlyD + TolC + Terminator). As a non-secretion control, E. coli harboring only the pSB1C3 vector with both sensor and effector systems was used. Oxidative stress was induced by adding [http://en.wikipedia.org/wiki/Paraquat Paraquat] (Methyl viologen dichloride hydrate - Sigma), an oxidative stress inducer in bacteria, according to the following conditions:
- Sensor/Effector + Secretion system: 0µM Paraquat
- Sensor/Effector + Secretion system: 40µM Paraquat
- Sensor/Effector - Secretion system: 40µM Paraquat (non-secretion control)
After 3 hours of induction, samples were collected, centrifuged (4000 rpm / 10 min; to avoid cell lysis) and the supernatant was collected and centrifuged again (13000 rpm / 10 min; to remove remaining cells). The supernatant fluorescence was measured in fluorometer (SLM – Aminco; 4 nm bandpass and 10 mm) with excitation in 500 nm and emission spectra from 508-550 nm.
Results
GFP secretion was confirmed by fluorescence emission and estimated to be approximately 10% of total protein, according to fluorescence levels found in bacterial cultures (See figure 2, from Device 2 testing). Significant levels of GFP fluorescence were found only in the supernatant of Paraquat induced cultures containing both the sensor/effector and the secretion systems but not in the non-induced cultures and in the cultures containing only the sensor/effector system.
According to the graphic (Figure 2), the supernatant of the culture harboring the complete secretion system and induced with 40 µM of Paraquat (Red line) exhibited a well-defined fluorescence peak between 508 and 520 nm, which indicates the presence of GFP in the supernatant probably due to secretion.
Validating this result, there is no clear fluorescence peak both in the supernatant of non-induced control spectrum (Black line - complete secretion system with 0 µM of Paraquat) and non-secretion control spectrum (Blue line – sensor/effector without secretion system). The aforementioned controls corroborates the result of GFP secretion though the secretion system, eliminating false positive results due to cell lysis for example.
Discussion
This device is a modification of Stanford team 2009 secretion system composite BBa_K223062. The secretion system was improved according to biobrick assembly standard 23, and modified by deletion of Hemolysin C (HlyC) which encodes a 170 aminoacids protein that is related to pathogenesis and has no secretion function. HlyC protein facilitates the activation of Hemolysin A protein (do not confuse with HlyA secretion signal peptide, used in fusion to GFP, and IL’s) (Fath et al, 1993). When HlyA protein is activated by HlyC enzyme it has cytotoxic and cytolytic effects, then HlyC is related only to pathogenesis and not secretion.
We could show that this new secretion device (composed by secretion signal peptide HlyA, HlyD, HlyB and TolC) was able to secrete GFP fusioned to HlyA secretion peptide signal in response to Paraquat induction of the sensor/effector/secretion system, as showed by supernatant fluorescence. This also reinforces that HlyC is not necessary for secretion.
UNICAMP-EMSE Brazil Parts Design: why are they different to Stanford 2009 parts?
In the section below we aim to explain in details how our parts differ from Stanford 2009's, and why we decided to create novel parts to achieve similar objectives.
Secretion System Changes
Analyzing the pre-existing secretion system from Stanford Team 2009 we have decided to make several changes in order to make it more efficient and to prove that it actually works.
- Change the RBS part and its disposition in the transcriptional unit.
- Attempting to create a new secretion system, we began by choosing a different but still highly efficient RBS part. And according to the experience made upon RBS deposited parts (BBa_B0034), it was suggested that the RBS chosen by our team (B0030) is as efficient as the one used by Stanford 2009 team (B0034).
- To improve translation efficiency, gene sequence fidelity (avoid errors or mistranscription during PCR) and save time during the devices assembling UNICAMP-EMSE team synthesized each coding sequence already fusioned with RBS sequence. On the other hand Stanford 2009 Team did not use translational units.
- 2. Biobrick Standard Compatibility
- The secretion system developed by Stanford Team 2009 was not compatible with the systems 10, 12, 21, 23 nor 25. UNICAMP-EMSE Team has removed internal illegal restriction sites presented in the parts Bba_K223055 and BBa_K223057 by codon usage of these sites prior to synthesis. Therefore our team suited the secretion system to be compatible with 10, 12 and 23 standards.
- 3. Exclusion of non-essential genes
- In our system we have reduced the number of genes to use only the essential ones, considering that “the simpler, the better”. Evidence (Fath et al, 1993) shows that only TolC, HlyB and HlyD are essential for the system to work, hence we have excluded the gene HlyC, used by Stanford 2009 Team (Part Bba_K223056). Hemolysin C (HlyC), which encodes a 170 aminoacids protein, has no secretion function but facilitates the activation of Hemolysin A protein which can act as an cytotoxic agent for many host cells.
- 4. HlyB and HlyD
- We have opted not to use HlyB and HlyD as a fusioned unit, like Stanford 2009 Team did (Part BBa_K223057), but as two independent translational units (Part BBa_K554008 and Part BBa_K554007)
- 5. Experience
- There is no data shown to indicate that Stanford 2009 Team secretion system has worked. On the other hand, UNICAMP-EMSE Team could successfully prove that our system worked, under the control of SoxS promoter (http://2011.igem.org/Team:UNICAMP-EMSE_Brazil/Results).
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