Part:BBa_K2455003
Cell-Penetrating USER Cassette
This biobrick contains an AsiSI/Nb.BSMI USER Cassette with a N-terminal nona-arginine (R9) Cell-penetrating peptide which gives proteins inserted into the cassette the ability to pass through plasma membranes. In addition the USER Cassette carries a N-terminal hexa-histidine tag which allows for easy purification.
For our study we demonstrated that proteins inserted into the cassette can be purified, using the histidine-tag, and subsequently transferred into E. coli cells through the use of the R9 peptide.
In addition; previous studies have shown proteins associated with R9, either covalently or non-covalently, to be able to enter a variety of cell types (Chang et al.).
Insertion Requirements
For insertion of genes into the USER Cassette genes have to be amplified with the primers carrying the two following overhangs:
Forward primer: CGTGCGAUCx
Reverse primer: CACGCGAUxx
Where U = Uracil and x = arbitrary nucleotide; these are needed to keep the inserted gene in-frame.
AsiSI and Nb.BsmI have to be used to facilitate opening of the cassette.
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
Cell-Penetrating Peptides (CPPs) are small peptides, typically rich in basic residues, which are able to facilitate transport of a wide variety of cargoes across plasma membranes. Their origin in nature comes from viral domains such as the viral HIV tat domain (Eudes & Chugh, 2008). In recent years research have been done into making synthetic CPPs, especially peptides constructed solely from arginine residues have been of interest. The arginine rich sequence has been shown to trigger endocytosis in a wide range of cell types, including onion and potato cells (Chang et al.).
USER Cassette
The biobrick carries the AsiSI/Nb.BsmI USER Cassette which facilitates gene insertion through the use of USER cloning.
For more information on USER cloning see [http://www.cbs.dtu.dk/services/AMUSER/ Amuser] or [http://www.cbs.dtu.dk/services/AMUSER/instructions.php Amuser instructions].
Gene Insertion
In order to test the ability of the biobrick to facilitate protein import in E. coli we choose to insert two different fluorescent proteins into it, SYFP2 and mTag BFP.
Opening of USER Cassette
To facilitate insertion we first had to prepare the vector, this was done in a two step digestion reaction. First to open the cassette 42 µL purified vector was mixed with 2.5 µL AsiSI, 10 µL 10x Tango Buffer, and 45.5 µL Nuclease-free water. The mixture was then incubated for 3 hours at 37 degrees Celsius. 5 µL linearised vector was run for 20 min at 100 V on a 1 % Agarose gel to check for proper linearisation.
Following digestion the vector was subjected to column-purified using [http://omegabiotek.com/store/product/e-z-n-a-gel-extraction-kit/ E.Z.N.A.® Gel Extraction Kit] and [http://omegabiotek.com/store/wp-content/uploads/2013/05/D2500.D2501-Gel-Extraction-Kit-Combo-Online.pdf standard protocol] for gel-extraction with 150 uL binding buffer being added in the first step.
Finally the vector was nicked by mixing the complete 50 uL elute from the column-purification with 1 uL Nb.BsmI, 6 uL 10x NEBuffer 3.1, and 3 uL Nuclease-free water. The mixture was incubated for 3 hours at 65 degrees Celcius.
Gene Amplification
In order to facilitate insertion of the SYFP2 and mTag BFP biobricks into the USER Cassette, the two genes were amplified using the following sets of primers:
SYFP2:
Forward primer: CGTGCGAUCA-ATGGTTAGCAAGGGCGAAG
Reverse primer: CACGCGAUGA-TTTATACAGCTCATCCATACCCAGGG
mTag BFP:
Forward primer: CGTGCGAUCA-ATGAGCGAACTGATCAAAGAG
Reverse primer: CACGCGAUGA-ATTCAGTTTATGACCCAGC
Insertion of BFP and YFP
Smid amplification af gener samt digest/pcr af insert ind.
Cultivation, Purification and SDS-PAGE
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Imaging
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//chassis/prokaryote/ecoli
direction | Forward |
function | Cell-Penetrating, USER Cassette |
tag | C-terminal hexa-histidine |