Difference between revisions of "Part:BBa K823038"

(Strep-tag column purification)
(Characterization: TU_Dresden 2019)
Line 86: Line 86:
  
 
The purification of this construct in Fig. 2 was repeated again by using the same protocol, but this time a successful MBP-tag purification was performed first (see the registry page of our Full Construct for more details [https://parts.igem.org/Part:BBa_K3037003 BBa_K3037003]). As shown in the gel of Fig. 3, the Strep-tag column purification did not work.
 
The purification of this construct in Fig. 2 was repeated again by using the same protocol, but this time a successful MBP-tag purification was performed first (see the registry page of our Full Construct for more details [https://parts.igem.org/Part:BBa_K3037003 BBa_K3037003]). As shown in the gel of Fig. 3, the Strep-tag column purification did not work.
[[File:Strep_purification_2.png|center|400px|thumb|none|Fig. 3 SDS-page showing the unsuccessful purification of our Full Construct. The elution fractions do not contain our construct of interest, although this construct was already successfully purified via its MBP. A big part of our Full Construct seemed to be went through the column, since it is visible in the cell lysate, flowthrough fraction washing step between 180 and 245 kDa.]]
+
[[File:Strep_purification_2.png|center|400px|thumb|none|Fig. 3 SDS-PAGE showing the unsuccessful purification of our Full Construct. The elution fractions do not contain our construct of interest, although this construct was already successfully purified via its MBP. A big part of our Full Construct seemed to be went through the column, since it is visible in the cell lysate, flowthrough fraction washing step between 180 and 245 kDa.]]
  
  
===== b) Purification of HRP-Strep ([https://parts.igem.org/Part:BBa_K3037009 BBa_K3037009]) =====
+
===== b) Purification of HRP-Strep ([https://parts.igem.org/Part:BBa_K3037009 BBa_K3037009)] =====
  
  

Revision as of 23:57, 21 October 2019

Strep-tag (Freiburg standard+RBS)

Streptavidin - tag with RBS in Freiburg standard.

Find out more about the design of our prefix with ribosome binding site.

prefix:GAATTCCGCGGCCGCTTCTAGATAAGGAGGAACTACTATGGCCGGC

suffix:ACCGGTTAATACTAGTAGCGGCCGCTGCAGT


The Strep-tag is a mimicry peptide of biotin which binds to Streptavidin ([http://www.sciencedirect.com/science/article/pii/S1050386299000339 Skerra, A. and Schmidt, T.G.M. (1999)]). Its sequence is WSHPQFEK. It can be used for protein purification, immobilisation with Streptavidin or Strep-tactin ([http://www.ncbi.nlm.nih.gov/pubmed/9415448 Voss, S. and Skerra, A. (1997)]) or detection with Strep-tactin or antibodies.

This is a part created by the LMU-Munich 2012 team. We added five tags to the registry, all in the Freiburg standard for N-and C-terminal fusions:

  • Strep - tag


Visit our project page for more usefull parts of our [http://2012.igem.org/Team:LMU-Munich/Bacillus_BioBricks BacillusBioBrickBox]. This part was also evaluated in the publication [http://www.jbioleng.org/content/7/1/29 The Bacillus BioBrick Box: generation and evaluation of essential genetic building blocks for standardized work with Bacillus subtilis] by Radeck et al..

Evaluation

All 5 epitope tags were fused C- and N-terminally to GFP using the NgoMIV and AgeI restriction sites. These constructs were expressed in Bacillus subtils using pSBBs0K-Pspac. This vector did not need to be induced by IPTG due to a premature stop codon in the lacI gene.

LMU-Western Blot Tags.png

Fig. 1: Western blots of N- and C-terminal fusions of each tag to GFP, using the strains TMB1920 (Flag-gfp), TMB1921 (gfp-Flag), TMB1922 (HA-gfp), TMB1923 (gfp-HA), TMB1924 (cMyc-gfp), TMB1925 (gfp-cMyc), TMB1926 (His-gfp), TMB1927 (gfp-His), TMB1928 (StrepII-gfp) and TMB1929 (gfp-StrepII). For each construct, two independent clones were tested with epitope tag- and GFP-specific antibodies as a positive control.

Methods

To verify the functionality of the epitope tags, Western blot analyses of the strains TMB1920-TMB1929 were performed. LB medium (15 ml) was inoculated 1:100 from overnight culture and grown at 37°C and 200 rpm to OD600 ~ 0.5. Of this, 10 ml were harvested by centrifugation (8000 × g, 5 min) and the pellets stored at -20°C. Pellets were resuspended in 1 ml disruption buffer (50 mM Tris–HCl pH 7.5, 100 mM NaCl) and lysed by sonication. Samples (12 μl of lysate) were loaded per lane on two 12.5% SDS-polyacrylamide gels and SDS-PAGE was performed according standard procedure [60]. One gel was stained with colloidal coomassie, the other one was used for protein transfer to a PVDF membrane (Merck Millipore, Billerica, MA, USA) by submerged blotting procedure (Mini Trans-Blot Electrophoretic Transfer Cell (Bio-Rad, Hercules, CA, USA)). After protein transfer, the membranes were treated with the following antibodies and conditions. Detailed protocols can be found [http://www.jbioleng.org/content/7/1/29/suppl/S3 here].


GFP

Probing with primary antibodies takes place with rabbit anti-GFP antibodies (1:3000, Epitomics, No. 1533). Horseradish-peroxidase (HRP)-conjugated anti-rabbit antibodies (1:2000, Promega, W401B) were used as secondary antibody. Hybridization of both antibodies was carried out in Blotto-buffer (2.5% (w/v) skim milk powder, 1 × TBS (50 mM Tris–HCl pH 7.6, 0.15 M NaCl)).


StrepII

Strep-Tactin-HRP conjugate (IBA, Strep-Tactin-HRP conjugate, No. 2-1502-001) 1:100 in 1 × PBS (4 mM KH2PO4; 16 mM Na2HPO4; 115 mM NaCl) with 0.1% (w/v) Tween20 was used.


Chemiluminescence signals were detected after addition of the HRP-substrate Ace Glow (Peqlab, Erlangen, Germany) using a FusionTM imaging system (Peqlab).



Characterization: TU_Dresden 2019

Strep-tag column purification

The Team TU Dresden 2019 used this Biobrick for purification purposes using the “Expression and purification of proteins using Strep-Tactin” protocol of IBA Lifescience [1]. We tried to purify many of our different BioBricks via this method, in order to characterize the proper function of the Strep-tag for purification purposes. However, we were not able to obtain purified constructs, meaning that this Strep-tag should rather be used for Western Blotting instead of for purification. Nevertheless, the different BioBricks that we tried to purify with this Strep-tag have shown to be working properly (see their Registries: BBa_K3037003, BBa_K3037009)

The results of the different purification tests are shown in the following gels:

a) Purification of our Full Construct (BBa_K3037003)
Fig.2 SDS-PAGE showing the unsuccessful purification of our Full Construct BBa_K3037003. The elution fractions do not contain our construct of interest.


The purification of this construct in Fig. 2 was repeated again by using the same protocol, but this time a successful MBP-tag purification was performed first (see the registry page of our Full Construct for more details BBa_K3037003). As shown in the gel of Fig. 3, the Strep-tag column purification did not work.

Fig. 3 SDS-PAGE showing the unsuccessful purification of our Full Construct. The elution fractions do not contain our construct of interest, although this construct was already successfully purified via its MBP. A big part of our Full Construct seemed to be went through the column, since it is visible in the cell lysate, flowthrough fraction washing step between 180 and 245 kDa.


b) Purification of HRP-Strep (BBa_K3037009)

For the purification of this construct the same protocol mentioned above was used, however, the same buffers were made by us without adding EDTA to ensure the proper function of the HRP.

Fig. 4 SDS-PAGE showing the unsuccessful purification of the HRP-Strep construct. The elution fractions do not contain our construct of interest.
Conclusions

From the results of these purifications in Fig. 2 to 4, we can conclude that the Strep-tag does not properly work for column purification and should rather be used for Western Blotting.

References

[1] https://www.iba-lifesciences.com/isotope/2/2-3206-100-Manual-Twin--Strep-tag.pdf


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
    COMPATIBLE WITH RFC[1000]