Part:BBa_K2922000
Beta-D-glucosidase fused at N-terminal with YebF secretion protein
This part contains the sequence for the protein beta-glucosidase with protein yebF fused to its N-terminus by GS linker. It can achieve the secretion of Beta-glucosidase with the function of yebF protein.
Biology
BBa_K2922000 is a composite of bgl1A (BBa_K2564000) with yebF ( BBa_K1659003), a protein reported to be naturally secreted into the extracellular medium by E.coli BL21:
1. bgl1A
Cellulose is a polymer composed of beta-1,4-linked glucosyl residues. Cellulases (endoglucanases), cellobiosidases (exoglucanases), and beta-glucosidases are required by organisms (some fungi, bacteria) that can consume it. These enzymes are powerful tools for degradation of plant cell walls by pathogens and other organisms consuming plant biomass.
Beta-glucosidase is an 53 kDa enzyme that catalyzes the hydrolysis of the glycosidic bonds to terminal non-reducing residues in beta-D-glucosides and oligosaccharides, with release of glucose.[1]
Depending on the organism cellobiose may be cleaved extracellularly by β-glucosidases (cellobiases) and imported as glucose, or imported directly and cleaved in the cytoplasm. Import generally occurs through phosphotransferase transport systems.[2]
2. YebF
YebF is a 13 kDa protein of unknown function that is perhaps the only protein that has been conclusively documented to be secreted into the extracellular medium by a laboratory E. coli strain. At the N-terminus, YebF has a 2.2 kDa sec-leader sequence which mediates its translocation through the bacterial inner membrane via the Sec pathway, and is cleaved upon translocation into the periplasm to give the 10.8 kDa "mature" form.
Export from periplasm into the extracellular space takes places via the Omp pathway, whereby the electropositive dynamic region of YebF electrostatically helps load YebF onto the OmpF/OmpC porins at their electronegative periplasmic face, and after which the disordered N-terminal region of YebF gets threaded through the OmpF lumen. YebF has been used successfully to mediate the secretion of recombinant proteins.[3]
Usage
In order to let yebF help secrete our cellulase out of the E. coli membrane, we fused the cellulase gene fragment with yebF gene fragment at the N-terminal by Overlap Extension Polymerase Chain Reaction(OE-PCR), and inserted a flexible GS Linker (GGGGS). PCR product was identified by agarose gel electrophoresis (Fig.1)
Characterization
These parts were insert into the expression vectors with T7 and RBS (BBa_K525998) by restriction sites EcoRI and PstI. Then transformed the expression vectors into E. coli DH5α, and the correct construction of this recombinant plasmid was confirmed by chloramphenicol, colony PCR and plasmid sequencing.
1. SDS-PAGE
We transformed the constructed plasmid into E. coli BL21 (DE3). After confirmed by the same method, the positive clones were cultivated and induced to express by IPTG. The supernatant of culture medium was obtained by centrifugation. And we gain the total protein by ultrasonic crushing. The lysate was then centrifuged and the supernatant was electrophoresed on a sodium dodecyl sulfate (SDS)-12% (wt/ol) polyacrylamide gel, followed by Coomassie blue staining. (Fig. 2)
2. HPLC
We use HPLC to verify the activity of bgl1A. First of all, we used the different concentrations of glucose solution and cellobiose solution to make SWC (Standard Working Curve) of HPLC.
Then mix the crude enzyme solution with cellobiose, incubate under the condition of 37°C, 200 rpm using a shaking incubator for reaction. Take out one tube of reaction system into boiling water bath for 8 minutes to stop the reaction when and after interval time since reaction started. And then carry out HPLC on the sample.
Result of the broken supernatant of medium cultures with PT7-RBS-bgl1A part shows that D-cellobiose got consumed with extension of reaction time and more D-glucose obtained. The Bgl1A could degrade D-cellobiose into D-glucose. Besides, the similar result could not be seen in supernatant of cultures, which means Bgl1A can’t be secreted out of cell or the supernatant does not have enzyme activity.
Reference
- ↑ M. Cox, D. Nelson, Lehninger Principles of Biochemistry. (2000), vol. 5. New York: Worth Publishers. pp. 306–308.
- ↑ R. M. Weiner et al., Complete genome sequence of the complex carbohydrate-degrading marine bacterium, Saccharophagus degradans strain 2-40 T. 4, e1000087 (2008).
- ↑ https://parts.igem.org/wiki/index.php?title=Part:BBa_K1659003#Biology
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal NgoMIV site found at 1591
- 1000COMPATIBLE WITH RFC[1000]
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