Difference between revisions of "Part:BBa K1989033"

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<span class='h3bb'>Sequence and Features</span>
 
<span class='h3bb'>Sequence and Features</span>
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<partinfo>BBa_K1989033 SequenceAndFeatures</partinfo>
  
  
 
===Functional Parameters===
 
===Functional Parameters===
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<partinfo>BBa_K1989033 parameters</partinfo>

Revision as of 13:06, 15 October 2016

Triple spytag with mSA, flash tag and signal peptide SacB

Usage and Biology

Biological material


In the last few years, hydrogens made from natural or synthetic polymers have been investigated due to their extensive application in clinical medicine and synthetic biology. Comparing to traditional biological material, protein-based multifunctional biological material is low-cost, facile and eco-friendly. However, strategies for assembling 3D molecular networks synthesized only by protein molecular remain underdeveloped. The reason why investigating this technology is still tough is lack of protein-based cross linking agents.

Spytag and mSA

Inspiring from the self-catalysis of isopeptide bond between Lys and Asp in Streptococcus pyogenes fibronectin-binding protein FbaB, researchers split the catalytic domain and obtain two peptide called Spytag(the short one) and Spycatcher(the long one) which are able to form isopeptide bond with the other without any assistant. By fusing Spytag and Spycatcher with functional domains respectively, researchers solve the problem tactfully. In order to using Spytag and Spycatcher system as scaffold, we fused three Spytag spaced by (VPGVG)4 with 6xHistag in N-terminal and another functional protein called monomeric streptavidin(mSA) in C-terminal.

Signal peptide

Whether in E. coli or Bacillus Subtilis, the secreted proteins usually contain signal peptides that are essential for export from the cytoplasm. Signal peptides are at the N terminus of target proteins and can be cleaved after secretion. Both E. coli and Bacillus subtilis rely on Sec or Tat machinery to traverse the inner membrane. Detailed description is shown in Figure.1, where three distinct ways are depicted.

Peking part signal peptide table 1.png

Peking part signal peptide figure 1.png

As several attributes of our target proteins, such as 3A-SUP, 3B, 3A-mSA, etc. remained unknown, especially their folding state in cells, we were unable to rationally design or choose a signal peptide for each. Nevertheless, we could build a Signal Peptide Repertory to screen for the best SP candidate. Our ultimate goal was to select the most appropriate ones from a huge amount of signal peptides, but owing to the limited time, we had just chosen a limited number of signal peptides to test for its potential to secrete our target proteins. Based on previous studies on their performance of secretion, SacB was selected in this part.

Peking part construction.png

FlAsH-tag

FlAsH-tag is an alias for a tetracysteine-motif-tag (-FLNCCPGCCMEP-) which binds with high affinity and specificity to a biarsenical dye FlAsH-EDT2 and forms a fluorescent compounds.

Peking part flash.png

Based on our results, the fused protein SacB-3A-mSA-FlAshtag possess both isopeptide bond forming function, uranyl-binding ability and secretion . Thus, using Imd-3A-mSA-FlAshtag as a part of hydrogel formation, we can obtain our multifunctional biomaterial.

Cultivation and Result

Cultivation

The part was assembled with T7 promoter and RBS in pET28a plasmid vector. E. coli strain BL21(DE3) harboring the appropriate plasmid was grown at 37 °C in 2xYT medium overnight with suitable concentration of antibiotic. The culture was diluted 100 fold into fresh medium with antibiotic and grown at 37°C to an optical density of 0.6~0.8 at 600 nm, the protein expression was induced with 1 mM isopropyl β-D-1-thiogalactopyranoside (IPTG) and cells were grown overnight at 25°C.

Result

We could not find detectable protein secretion in the culture medium.

References

1. Low KO, Mahadi NM, Illias RM. Optimisation of signal peptide for recombinant protein secretion in bacterial hosts. Appl Microbiol Biotechnol.(2013)97(9):3811–3826.

2. Tjalsma H, Bolhuis A, Jongbloed JD, Bron S, van Dijl JM. Signal peptide-dependent protein transport in Bacillus subtilis: a genome-based survey

3. Hengen, P.N., Purification of His-Tag fusion proteins from Escherichia coli. Trends in Biochemical Sciences, (1995)20(7): p. 285-286.

4. Haitjema, C.H., et al., Universal Genetic Assay for Engineering Extracellular Protein Expression. ACS Synthetic Biology(2014) 3(2): p. 74-82.

5. Rodolphe Barrangou, Christophe Fremaux, Hélène Deveau, et al. CRISPR provides acquired resistance against viruses. Science, 2007, 315: 1709-1712.

6. Deltcheva E, Chylinski K, Sharma CM, et al. CRISPR RNA maturation by trans-encoded small RNA and host factor RNase III. Nature 2011;471:602–7.

7. Martin Jinek, Krzysztof Chylinski, Ines Fonfara, et al. A Programmable Dual-RNA–Guided DNA Endonuclease in Adaptive Bacterial Immunity. Science, 2012, 337: 816-821.

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    INCOMPATIBLE WITH RFC[1000]
    Illegal SapI site found at 106


Functional Parameters