Tag

Part:BBa_K1051206

Designed by: Rui Guan   Group: iGEM13_Shenzhen_BGIC_ATCG   (2013-09-25)
Revision as of 03:30, 3 October 2013 by Koala (Talk | contribs)

The degradation tag in E. coil ,M0050 with TAATAA.

Purpose

SsrA degradation tag in E. coli, add TAATAA to C-terminal of Biobrick M0050.

Principle

SsrA degradation tag. In E. coli, the adaptor SspB tethers ssrAtagged substrates to the ClpXP protease, causing a modest increase in their rate of degradation. Which means, a variation of the WT SsrA tag sequence will accelerate the degradation of proteins when fused to their C-terminal. Thus the degradation rates are dependent on concentration of proteases and binding mediators. In order to fuse degradation tags freely on the C-terminal of protein, we add TAATAA to the tail of M0050 to construnt this part.
We constructed the measurement pathway of tag K1051257(contains J04500, K1051000 and K1051206) to test the rates of degradation of tagged proteins. J04450 was used as positive control because of the same promoter and fluorescent protein.

Measurement

Growth-Curve.jpg The growth curve of E. coli. Degladder.jpg From right to left, the negative control,BBa_K1051257, BBa_K1051258, BBa_K1051259, J04450 as Positive Control. As the pictures showed, the lights of RFP within three degradation tags are decreasing. Flo2.jpg The test results of BBa_K1051258. A:No exciting lights; B. Powerful exciting lights; C. Weak exciting lights. In picture, there are only obvious lights in the picture B, indicated the degradation rates are working Degmicro.jpg The test results of BBa_K1051258 in chip. A,LB medium,O minuts; B, IPTG medium,9minutes; C,IPTG medium, 15 minutes

Average_flurescence_intensity_of_K1051258_measurement.jpg The average fluorescence intensity of K1051258 when added IPTG after specific time. DT.png
The fluorescence intensity of E. coli.

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]


References

[1]McGinness, Baker, Sauer. 2006. Mol. Cell. 22:701.
[2]Flynn et al 2003. Mol. Cell. 11: 671. Flynn et al. 2001. PNAS 98(19): 10584. Anderson et al 1998. App. Env. Microbiol. 64(6):2240

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