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Revision as of 02:24, 2 November 2017
Vector construction
To absorb hexavalent chromium, to hold it inside the cell and to reduce it to less toxic trivalent form, four gene expression cassettes were placed into pChlamy_4 acceptor vector.
Four genes, AphVIII, ChrR, Chromodulin and Membrane-bound SuperNOVA were expressed under fused pHSP70+pRBCS2+Intron (RBCS2) promoter.
OVERVIEW
Combination Of All Parts Into Two Expression Vectors
- Two constructs, namely Chromodulin and ChrR, were placed into pHyg3 expression vector.
- ChrR and SuperNova were amplified using plasmids which add restriction sites for further cloning into pChlamy_4 vector with an endogenous promoter for C. reinhardtii
Figure 1. PCR of transcriptional units of ChrR, SuperNova and Chromodulin amplified from pHYG(ChrR+Chromodulin).
- Amplified fragments were digested and ligated with pChlamy vector, followed by transformation to DH5-alpha
Figure 2. Successful transformation of ligation product of pChlamy+SN, pChlamy+ChrR
Transformation Of C.reinhardtii cell wall+ strain
- pHyg3 with Chromodulin+ChrR was electroporated into C.reinhardtii.
Figure 3. C.reinhardtii transformed with pHyg
- C.reinhardtii cell wall+ strain electroporated with pChlamy_4 +ChrR
Figure 4. C.reinhardtii transformed with pChlamy + ChrR
- C.reinhardtii was electroporated with pChlamy_4 +SuperNova
Figure 5. Transformed C. reinhardtii with pClamy + SuperNova was kept under red-blue light, which doesn’t contain 585 nm (excitation wavelength)
Verification Of Transformation Of C.reinhardtii And Expression
- Confirmation of the integration of plasmid into genome was done using colony PCR and PCR on liquid cultures.
Figure 6. PCR of ChrR from liquid cultures and colonies
- Expression of Chromate reductase protein was checked via Western Blot.
Hexavalent Chromium Uptake And Reduction Ability examination
- Ability of transformed C.reinhardtii to absorb hexavalent chromium was checked.
- Ability of transformed C.reinhardtii to reduce hexavalent chromium was checked.
Hexavalent Chromium Resistant Strain Of C.reinhardtii
C.reinhardtii was transformed with pHyg and pChlamy to create resistant strains. We successfully created strains resistant to 0.05 mM and 0.1 mM chromium concentration. Also we produced fully photosynthetic cell wall deficient strain, that was cultured in TAP minimal without acetate (main carbon source in TAP medium) resistant to 0.05 mM chromium. To compare, maximum concentration of chromium found in rivers and lakes of Kazakhstan is 0.017 mM. Our strain has ability to survive even higher concentrations, therefore it can be potentially applied to real conditions.
Electroporation of the algae with pHyg vector with Chromate reductase was done. This gives C.reinhardtii an improved ability to survive in chromium-containing medium compared to control. pHyg transformation allowed us to induce mutagenesis and get Chlamydomonas reinhardtii able to live under 0.05mM and 0.1mM Cr(VI) were obtained.
Figure 7. Strain resistant to 0.05 mM chromium
Figure 8. Mutant strain resistant to 0.1mM hexavalent chromium.
Figure 9. Fully photosynthetic strain, electroporated with pHyg.
Submission of parts.
- We amplified ChrR and Chromodulin parts from pHyg plasmid and SN, promoter and terminator were amplified from SN transcriptional unit. Primers were designed to add restriction sites for further Circular Polymerase Extension Cloning (CPEC)
Figure 10. PCR of parts for submission.
- We successfully cloned all of our parts into pSB1C3 vector using CPEC.
- We had two trials. In the first run we got the following gel image (Figure 11). All of the parts were cloned successfully, however transformation of DH5-alpha was successful only for 2 parts: terminator and SuperNova
- We repeated experiment for other three parts: ChrR, Chromodulin, promoter. (Figure 12) This time we also got positive results. Transformation of these parts produced colonies. (Figure 13)
Figure 11. CPEC for all parts.
Figure 12. Second trial of CPEC for three parts.
Figure 13. Successfully transformed parts after CPEC
