Difference between revisions of "Part:BBa K3147001"

Latest revision as of 06:51, 20 October 2019

sfGFP fused to a TEV cleavage site cleaved

I : parts BBa_K3147001 function

The Montpellier 2019 team made this reporter gene construct in order to obtain a positive control for TEV mediated proteolysis of the ssrA tag fused the sfGFP reporter (BBa_ K3147000). This construction produce sfGFP(bs)[1] [2] [3] (BBA_K1365020) fused in C-ter to a sequence corresponding to a TEV cutting site after cleavage (ENLYFQ).

Figure 1 : Construct Design: sfGFP with cleaved TEV cutting site.

II. Proof of function

We expressed this part in the pBbE8K backbone (https://www.addgene.org/35327) under a pBAD promoter. The cloning was made by Gibson Assembly.

Figure 2: sfGFP-TEVcs reporter gene in its backbone pBbE8K-RFP.

We compared the basal fluorescence of the E. coli strain NEB10β transformed with the sfGFP-TEVcs construction and the E. coli NEB10β transformed with the sfGFP-TEVcs-ssrA construction (BBa_K3147000). Fluorescence was measured on a plate reader after overnight induction with 1% arabinose.

Below are the fluorescence measurements of the sfGFP-TEVcs-ssrA and of the sfGFP-TEVcs at 30 and 37°C. We can see that the ssrA tag is causing a lot of degradation of the protein. Our part simulating cleavage effectively has a strong fluorescence. We can see that the ssrA system is more efficient at 37C as described in part M0050 characterization.

Figure 3: Measurement of the fluorescence at 30°C and 37°C of bacteria expressing sfGFP-TEVcs or sfGFP-TEVcs-SSRA

Reference

[1] McGinness, Baker, Sauer. 2006. Mol. Cell. 22:701.

[2] Overkamp, W. et al. (2013) Benchmarking various green fluorescent protein variants in Bacillus subtilis, Streptococcus pneumoniae, and Lactococcus lactis for live cell imaging. Appl. About. Microbiol. 79: 6481-6490

[3] Sarah Guiziou et al. 2016. “A part toolbox to tune genetic expression in Bacillus subtilis” Nucleic Acids Research, 2016, Vol. 44, No. 15 7495–7508.

Sequence and Features

Assembly Compatibility:

10
COMPATIBLE WITH RFC[10]
12
COMPATIBLE WITH RFC[12]
21
INCOMPATIBLE WITH RFC[21]
Illegal XhoI site found at 947
23
COMPATIBLE WITH RFC[23]
25
COMPATIBLE WITH RFC[25]
1000
COMPATIBLE WITH RFC[1000]

@@ Line 1: / Line 1: @@
-===I : parts BBa_K3147001 (sfGFP fused to a TEV-cleavable ssrA tag under a constitutive promoter) function===
+__NOTOC__
+<div align="center"><partinfo>BBa_K3147001 short</partinfo></div>
+===I : parts BBa_K3147001 function===
@@ Line 16: / Line 22: @@
   <div align="center"><b>Figure 2</b>: sfGFP-TEVcs reporter gene in its backbone pBbE8K-RFP.</div>
-We compared the basal fluorescence of the E. coli strain NEB10β transformed with the sfGFP-TEVcs construction and the E. coli NEB10β transformed with the sfGFP-TEVcs-ssrA construction (BBa_K3147000). Fluorescence was measured on a plate reader after overnight induction with 1% arabinose.
+We compared the basal fluorescence of the <i>E. coli</i> strain NEB10β transformed with the sfGFP-TEVcs construction and the <i>E. coli</i> NEB10β transformed with the sfGFP-TEVcs-ssrA construction (BBa_K3147000). Fluorescence was measured on a plate reader after overnight induction with 1% arabinose.
 Below are the fluorescence measurements of the sfGFP-TEVcs-ssrA and of the sfGFP-TEVcs at 30 and 37°C. We can see that the ssrA tag is causing a lot of degradation of the protein. Our part simulating cleavage effectively has a strong fluorescence.  We can see that the ssrA system is more efficient at 37C as described in part M0050 characterization.
@@ Line 22: / Line 28: @@
   <div align="center">[[File:resultK3147001.png|500px]]</div>
-  <div align="center"><b>Figure 3</b>: Measurement of the fluorescence at 30°C and 37°C of bacteria expressing sfGFP-TEVcs or sfGFP-TEVcs-SSRA in GFP/OD </div>
+  <div align="center"><b>Figure 3</b>: Measurement of the fluorescence at 30°C and 37°C of bacteria expressing sfGFP-TEVcs or sfGFP-TEVcs-SSRA</div>
 ==Reference==