BBa_K1399002

BBa_K1399002 Version 1

Component

Source:
http://parts.igem.org/Part:BBa_K1399002
Generated By: https://synbiohub.org/public/igem/igem2sbol/1
Created by: Anna Stikane
Date created: 2014-09-18 11:00:00
Date modified: 2015-05-08 01:10:15

RFP from Discosoma striata (coral) with LAA-ssrA degradation tag (wt)



Types
DnaRegion

Roles
Coding

CDS

Sequences BBa_K1399002_sequence (Version 1)

Description

Mutant RFP from Discosoma striata (coral) (see part BBa_E1010) with added LAA-ssrA degradation tag (part BBa_M0050). The tag increases RFP turn-over rate, thus providing better temporal resolution of red fluorescence. In the same time, maximal fluorescence amplitudes will be lower as newly formed protein is degraded as soon as it is formed.
The tag encodes peptide sequence AANDENYALAA and is recognized by ClpA and ClpX unfoldases and ClpX mediator SspB.[1] ClpA and ClpX then form a proteosome-like complex with ClpP protease and the protein is degraded.[1]
The final three residues of the tag determines the strength of interaction with ClpX and thus the final protein degradation rate.[2] The LAA tag is E. coli wild type ssrA tag and is reported to lead to very fast protein degradation, degrading GFP with rate -0.018 per minute.[2] However, be aware that exact protein degradation rate depends on multiple factors: ClpXP and ClpAP protease and SspB mediator concentrations; Protein stability; Km of binding to the protease; Temperature [3].
Mutant RFP from Discosoma striata (coral) (see part BBa_E1010) with added LAA-ssrA degradation tag (part BBa_M0050). The tag increases RFP turn-over rate, thus providing better temporal resolution of red fluorescence. In the same time, maximal fluorescence amplitudes will be lower as newly formed protein is degraded as soon as it is formed.
The tag encodes peptide sequence AANDENYALAA and is recognized by ClpA and ClpX unfoldases and ClpX mediator SspB.[1] ClpA and ClpX then form a proteosome-like complex with ClpP protease and the protein is degraded.[1]
The final three residues of the tag determines the strength of interaction with ClpX and thus the final protein degradation rate.[2] The LAA tag is E. coli wild type ssrA tag and is reported to lead to very fast protein degradation, degrading GFP with rate -0.018 per minute.[2] However, be aware that exact protein degradation rate depends on multiple factors: ClpXP and ClpAP protease and SspB mediator concentrations; Protein stability; Km of binding to the protease; Temperature [3].
Mutant RFP from Discosoma striata (coral) (see part BBa_E1010) with added LAA-ssrA degradation tag (part BBa_M0050). The tag increases RFP turn-over rate, thus providing better temporal resolution of red fluorescence. In the same time, maximal fluorescence amplitudes will be lower as newly formed protein is degraded as soon as it is formed.
The tag encodes peptide sequence AANDENYALAA and is recognized by ClpA and ClpX unfoldases and ClpX mediator SspB.[1] ClpA and ClpX then form a proteosome-like complex with ClpP protease and the protein is degraded.[1]
The final three residues of the tag determines the strength of interaction with ClpX and thus the final protein degradation rate.[2] The LAA tag is E. coli wild type ssrA tag and is reported to lead to very fast protein degradation, degrading GFP with rate -0.018 per minute.[2] However, be aware that exact protein degradation rate depends on multiple factors: ClpXP and ClpAP protease and SspB mediator concentrations; Protein stability; Km of binding to the protease; Temperature [3].
References:
[1] Flynn, J. M. et al. Overlapping recognition determinants within the ssrA degradation tag allow modulation of proteolysis. Proc. Natl. Acad. Sci. U. S. A. 98, 10584???9 (2001).
[2] Andersen, J. B. et al. New unstable variants of green fluorescent protein for studies of transient gene expression in bacteria. Appl. Environ. Microbiol. 64, 2240???6 (1998).
[3] Purcell, O., Grierson, C. S., Bernardo, M. Di & Savery, N. J. Temperature dependence of ssrA-tag mediated protein degradation. J. Biol. Eng. 6, 10 (2012)

Notes

The tag was attached to RFP using PCR and MABEL (mutagenesis with blunt-end ligation), thus avoiding introduction of additonal residues and restriction site. Different parts of the tag are recognized by different proteins, for example, the final 3 residues (AAV in this case) are recognised by ClpX, whereas first 4 residues of the tag are required for efficient SspB binding.[1] Thus modifications of these critical residues alter the efficacy with what different proteases bind to it.

Source

RFP comes from part BBa_E1010, tag sequence was obtained from part BBa_M0050, but same tag was also used in paper by Andersen et al., (1998).[2]

Sequence Annotation Location Component / Role(s)
start
RFP
tag
stop
stop
1,3
4,675
676,708
709,711
712,714
feature/start start_codon
feature/cds CDS
feature/tag tag
stop_codon feature/stop
stop_codon feature/stop
igem#experience
Works
 
igem#sampleStatus
In stock
igem#status
Available
 
synbiohub#ownedBy
user/james
 
synbiohub#ownedBy
user/myers
 
synbiohub#topLevel
BBa_K1399002/1