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This experience page is provided so that any user may enter their experience using this part.<BR>Please enter
 
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===Applications of BBa_J45999===
 
===Applications of BBa_J45999===
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Odor-free chassis for odor biosynthetic devices and systems.
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===User Reviews===
 
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<partinfo>BBa_J45999 AddReview 4</partinfo>
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<I>SDU-Denmark 2014</I>
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[[File:2014SDUflavor3.jpg|200px|thumb|left|IMS spectrum of wild type E. coli K12 MG1655, odor-free YYC912, and air at RT=3.]]
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The indole in E. coli has earlier been found at K0-1=0.556 s V cm-2. [1] In the figure the spectra is shown for wild type (WT), odor-free (OF) and air. As can be seen from the spectra there is a peak for wild type at 0.556 that is more intense than the two others. This indicates the indole produced by wild type E. coli. The spectra for the odor-free strain can be seen to follow the spectra for air. This shows that indole is not produced by the odor-free strain.
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[1]. Ochoa, M. L., et. al.: Characterization and Differentiation of Bacteria Using In Situ Derivatization Ion Mobility Spectrometry of Whole Cells and Chemometric Modeling, Ohio University, 2004, p. 25. http://www.medatsoft.de/isims/pdf/7/1/Mariela_Ochoa_IJIMS_7_2004_1.pdf
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<partinfo>BBa_J45999 AddReview 5</partinfo><br>
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<I>[[User:Rshetty|Reshma Shetty]]</I>
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The odor-free chassis (<partinfo>BBa_J45999</partinfo>) has no smell and produces no detectable levels of indole.
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==Characterization==
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===Gas chromatography analysis of odor-free chassis===
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{{:IGEM:MIT/2006/Odor-free chassis}}
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Latest revision as of 02:20, 18 October 2014

This experience page is provided so that any user may enter their experience using this part.
Please enter how you used this part and how it worked out.

Applications of BBa_J45999

Odor-free chassis for odor biosynthetic devices and systems.


User Reviews

UNIQ8c989b08e5752e22-partinfo-00000000-QINU

••••

SDU-Denmark 2014

IMS spectrum of wild type E. coli K12 MG1655, odor-free YYC912, and air at RT=3.


The indole in E. coli has earlier been found at K0-1=0.556 s V cm-2. [1] In the figure the spectra is shown for wild type (WT), odor-free (OF) and air. As can be seen from the spectra there is a peak for wild type at 0.556 that is more intense than the two others. This indicates the indole produced by wild type E. coli. The spectra for the odor-free strain can be seen to follow the spectra for air. This shows that indole is not produced by the odor-free strain.





[1]. Ochoa, M. L., et. al.: Characterization and Differentiation of Bacteria Using In Situ Derivatization Ion Mobility Spectrometry of Whole Cells and Chemometric Modeling, Ohio University, 2004, p. 25. http://www.medatsoft.de/isims/pdf/7/1/Mariela_Ochoa_IJIMS_7_2004_1.pdf

;


•••••

Reshma Shetty

The odor-free chassis (BBa_J45999) has no smell and produces no detectable levels of indole.

UNIQ8c989b08e5752e22-partinfo-00000004-QINU

Characterization

Gas chromatography analysis of odor-free chassis

Odor-free chassis does not produce the fecal odor indole
To verify our selection of E. coli strain YYC912 as an odor-free chassis, we analyzed cultures of each strain for indole production using gas chromatography. E. coli strain YYC912 had no detectable indole (A) whereas E. coli strain TOP10 had high levels of indole (B). The retention time of the indole peak from E. coli strain TOP10 is identical to that of the pure indole standard (C).