Difference between revisions of "Part:BBa K2933285"
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− | ===Usage=== | + | ===Usage and biology=== |
smURFP (small ultra-red FP) is an important part in our group. It is desirable for our BV detection and in-vivo imaging because with it molecule less light is scattered, absorbed, or re-emitted by endogenous biomolecules compared with cyan, green, yellow and orange FPs. smURFP can covalently attaches a biliverdin(BV) chromophore without a lyase, and has 642/670 nm excitation - emission peaks, a large extinction coefficient and quantum yield, and photostability comparable to that of eGFP.<br> | smURFP (small ultra-red FP) is an important part in our group. It is desirable for our BV detection and in-vivo imaging because with it molecule less light is scattered, absorbed, or re-emitted by endogenous biomolecules compared with cyan, green, yellow and orange FPs. smURFP can covalently attaches a biliverdin(BV) chromophore without a lyase, and has 642/670 nm excitation - emission peaks, a large extinction coefficient and quantum yield, and photostability comparable to that of eGFP.<br> | ||
− | In order to fluorescence, Site-directed mutation smURFP must be combined with biliverdin (BV) .So we construct the surface display system to make in-vivo imaging come true. To construct the surface display system, the gene of fluorescent protein---smURFP and the gene of the anchoring protein should be connected to the same expression vector. After the recombinant plasmid is transferred to the target bacteria, the fluorescent protein and anchoring protein will express at the same time and become fusion protein, and then the fluorescent protein will be carried to the cell surface by anchoring protein. With the added biliverdin, fluorescent protein will combine with biliverdin and glow on the cell surface.< | + | In order to fluorescence, Site-directed mutation smURFP must be combined with biliverdin (BV) .So we construct the surface display system to make in-vivo imaging come true. To construct the surface display system, the gene of fluorescent protein---smURFP and the gene of the anchoring protein should be connected to the same expression vector. After the recombinant plasmid is transferred to the target bacteria, the fluorescent protein and anchoring protein will express at the same time and become fusion protein, and then the fluorescent protein will be carried to the cell surface by anchoring protein. With the added biliverdin, fluorescent protein will combine with biliverdin and glow on the cell surface. |
+ | For more information, see the part <partinfo> BBa_K2328027</partinfo>. | ||
===Reference=== | ===Reference=== |
Revision as of 15:04, 9 October 2019
smURFP(mutation Y56R) + Linker A + RBS I + HO-1 I
.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
Usage and biology
smURFP (small ultra-red FP) is an important part in our group. It is desirable for our BV detection and in-vivo imaging because with it molecule less light is scattered, absorbed, or re-emitted by endogenous biomolecules compared with cyan, green, yellow and orange FPs. smURFP can covalently attaches a biliverdin(BV) chromophore without a lyase, and has 642/670 nm excitation - emission peaks, a large extinction coefficient and quantum yield, and photostability comparable to that of eGFP.
In order to fluorescence, Site-directed mutation smURFP must be combined with biliverdin (BV) .So we construct the surface display system to make in-vivo imaging come true. To construct the surface display system, the gene of fluorescent protein---smURFP and the gene of the anchoring protein should be connected to the same expression vector. After the recombinant plasmid is transferred to the target bacteria, the fluorescent protein and anchoring protein will express at the same time and become fusion protein, and then the fluorescent protein will be carried to the cell surface by anchoring protein. With the added biliverdin, fluorescent protein will combine with biliverdin and glow on the cell surface.
For more information, see the part No part name specified with partinfo tag..
Reference
[1] Rodriguez EA,Tran GN , Gross LA, et al. A far-red fluorescent protein evolved from a cyanobacterial phycobiliprotein .[J].NATURE METHODS,2016:763-769.
Construction of expression Vecto
Using one T7 promoter, two RBS structures, simultaneously expressing smURFP and producing BV heme oxidase.
Figure 1. (a)Cloning of smurfp gene and ho-1 gene.(b)Overlap PCR ligation.(c)After digested
Figure 2. (a)Point mutation PCR of smurfp gene.(b)Point mutation Overlap PCR ligation.(c)After digested
Protein production and purification
Figure 3. (a)Separation of peak position from molecular sieves of smURFP and BV complexes.(b)SDS-PAGE
Figure 4. (a)Separation of peak position from molecular sieves of smURFP and BV complexes.(b)SDS-PAGE
Figure 5. (a)Absorption spectrum of smURFP complex solution.(b)Comparison of absorption spectra of smURFP Y56R complex solution.