BBa_M45114

BBa_M45114 Version 1

Component

Source:
http://parts.igem.org/Part:BBa_M45114
Generated By: https://synbiohub.org/public/igem/igem2sbol/1
Created by: Federico C. Rodriguez
Date created: 2014-04-18 11:00:00
Date modified: 2015-05-08 01:14:08

GFPuv



Types
DnaRegion

Roles
CDS

Coding

Sequences BBa_M45114_sequence (Version 1)

Description

Green fluorescent protein (GFP) is a 27 kDa protein of 238 amino acids in length. GFP is intrinsically fluorescent and hence is ideal as a non-invasive marker in living cells. It is used as a cell lineage tracer, reporter of gene expression, a measure of protein-protein interactions, and as an intracellular pH indicator. GFP can function as a protein tag as it tolerates N- and C-terminal fusion to a broad variety of proteins (Chin et al.).

Wild-type GFP fluoresces maximally when excited at 395 nm, with a minor peak at 475 nm. Fluorescence emission peaks at 509 nm. It is stable within a range of pH 5.5 to 12. Denaturation occurs at temperatures above 70??C (Chin et al.).

Several variants with improved absorption or emission spectra, or increased the fluorescence intensity, have since been developed. Variants also exhibit different thermosensitivities (Chin et al.).

The maximum excitation spectra of GFPuv is 395nm while its maximum emission spectra is 509nm, which is similar to that of wild-type GFP. Compared to wild-type GFP, GFPuv contains three amino acid substitutions (Phe-99 to Ser, Met-153 to Thr, and Val-163 to Ala [based on the amino acid numbering of wild-type GFP]), none of which alter the chromophore sequence. The main advantage of this variant over wild-type GFP is its large amount of fluorescence when excited by ultra-violet (UV) light at 395nm. GFPuv is 18 times brighter than wild-type GFP
under ultra-violet excitation and can easily be detected by the eye without the need for specialized equipment. Furthermore, GFPuv expressed in E. coli is a soluble, fluorescent protein in contrast to wild-type GFP, much of which may be expressed as a nonfluorescent protein in inclusion bodies. Consequently, the GFPuv gene is expressed very efficiently in E. coli (Chin et al.).

Reference:

Chin et al. CHARACTERISATION OF GREEN FLUORESCENT PROTEIN, GFPuv. Retrieved from: http://staff.science.nus.edu.sg/~scilooe/srp_2003/sci_paper/dbs/research%20_paper/ngeow_kao_chin.pdf

Notes

The sequence complied with RFC-10 assembly compatibility as a requirement for Utah State University Synthetic Biology class, so no design considerations had to be taken into account during the creation of the sequence as a biobrick.

Source

GFPuv was originally isolated from the bioluminescent jellyfish Aequorea Victoria.

Sequence Annotation Location Component / Role(s)
Protein
Start Codon
Stop Codon
1,717
1,3
715,717
CDS feature/protein
start_codon feature/start
stop_codon feature/stop
igem#experience
None
 
igem#sampleStatus
Not in stock
igem#status
Unavailable
 
synbiohub#ownedBy
user/james
 
synbiohub#ownedBy
user/myers
 
synbiohub#topLevel
BBa_M45114/1