Difference between revisions of "Part:BBa K537009:Experience"

(Applications of BBa_K537009)
(Applications of BBa_K537009)
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A Synergy hybrid reader was used to excite the cultures at 505 nm and the intensity of the emission was detected at 535 nm. Empty bacteria were used to correct for autofluorescence (IGEM11_WITS_CSIR_SA offered exciting at 514nm and emission at 528nm, but 514&528 is too close for our machine to detect.)
 
A Synergy hybrid reader was used to excite the cultures at 505 nm and the intensity of the emission was detected at 535 nm. Empty bacteria were used to correct for autofluorescence (IGEM11_WITS_CSIR_SA offered exciting at 514nm and emission at 528nm, but 514&528 is too close for our machine to detect.)
 
“Fluorescence intensity / OD” increases greatly with theophylline concentration.
 
“Fluorescence intensity / OD” increases greatly with theophylline concentration.
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[[Image:ZJU sheet.jpg]]
 
[[Image:ZJU sheet.jpg]]
  

Revision as of 08:39, 19 August 2012

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Applications of BBa_K537009

ZJU-China 2012 Characterizes BioBrick Part K537009

To characterise the theophylline riboswitches (part K537009, iGEM11_WITS_CSIR_SA), we quantified their activation at different theophylline concentrations (0 mM, 1 mM, 5 mM, 10 mM and 20 mM) over 2 hours using fluorometry. Competent E. coli (strain DH5a) cells were transformed with plasmid vectors containing the “Promoter-Theophylline riboswitch -Venus-Double terminator”. The bacterial colony appeal pink. ZJU colony.jpg

Cultured until the mid-log phase of growth, a different concentration of theophylline was added to each culture for induction. The activation of the riboswitch was detected as a fluorescent response as a result of increased translation of the fluorescent protein Venus, in the presence of the activator. A Synergy hybrid reader was used to excite the cultures at 505 nm and the intensity of the emission was detected at 535 nm. Empty bacteria were used to correct for autofluorescence (IGEM11_WITS_CSIR_SA offered exciting at 514nm and emission at 528nm, but 514&528 is too close for our machine to detect.) “Fluorescence intensity / OD” increases greatly with theophylline concentration.

ZJU sheet.jpg

Fluorescence Microscope could also show this part work beautifully. Except for the difference that though K537009 is an YFP, we excite it at 532nm (green light) and it glow red. ZJU fluorescent1.jpg ZJU fluorescent2.jpg ZJU fluorescent3.jpg

User Reviews

UNIQ9e08bada5dadad85-partinfo-00000000-QINU UNIQ9e08bada5dadad85-partinfo-00000001-QINU