Team:Grenoble-EMSE-LSU/Documentation/Biobricks

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<h3>Main Functions</h3>

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KillerRed is a red fluorescent protein, meaning that by illuminating it with wavelengths from a certain portion of the visible spectrum, it re-emits light in another portion with longer (less energetic) wavelengths. Below is the absorption and emission spectra for the KillerRed protein:

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KillerRed is a red fluorescent protein, meaning that by illuminating it with wavelengths from a certain portion of the visible spectrum, it re-emits light in another portion with longer (less energetic) wavelengths. Below is the absorption and emission spectra for the KillerRed protein:

The KillerRed protein absorption (left peak) and emission (right peak) spectra

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From the emission and absorption spectra, we can determine that the protein absorbs in the green portion of the spectrum with a peak at 585 nm and emits in the red portion of the spectrum with a peak at 610 nm, hence the name "KillerRed".

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From the emission and absorption spectra, we can determine that the protein absorbs in the green portion of the spectrum with a peak at 585 nm and emits in the red portion of the spectrum with a peak at 610 nm, hence the name "KillerRed".

Emitted light from bacteria is proportional to the amount of protein in the cells. This allows for measuring protein concentration in a cell culture.

The second function of the protein is emission of ROS (Reactive Oxygen Species) when fluorescing.

@@ Line 29: / Line 29: @@
 			<h3>Main Functions</h3><br>
-			<p>KillerRed is a red fluorescent protein, meaning that by illuminating it with wavelengths from a certain portion of the visible spectrum, it re-emits light in another portion with longer (less energetic) wavelengths. Below is the absorption and emission spectra for the KillerRed protein:<br><br>
+			<p>KillerRed is a red fluorescent protein, meaning that by illuminating it with wavelengths from a certain portion of the visible spectrum, it re-emits light in another portion with longer (less energetic) wavelengths. Below is the absorption and emission spectra for the KillerRed protein:</p><br><br>
                          <p align="center"><img src="https://static.igem.org/mediawiki/2013/7/7f/KillerRed_spectra2.png" alt="Killer Red absorption-emission spectra" width="500px"></p><br>
                                          <p id="legend"><strong><em>The KillerRed protein absorption (left peak) and emission (right peak) spectra</em></strong><br>
@@ Line 35: / Line 35: @@
 </p>
 			<br><br>
-			From the emission and absorption spectra, we can determine that the protein absorbs in the green portion of the spectrum with a peak at 585 nm and emits in the red portion of the spectrum with a peak at 610 nm, hence the name "KillerRed".<br>
+			<p>From the emission and absorption spectra, we can determine that the protein absorbs in the green portion of the spectrum with a peak at 585 nm and emits in the red portion of the spectrum with a peak at 610 nm, hence the name "KillerRed".<br>
 			Emitted light from bacteria is proportional to the amount of protein in the cells. This allows for measuring protein concentration in a cell culture.<br><br>
 			The second function of the protein is emission of ROS (Reactive Oxygen Species) when fluorescing.<br>

Team:Grenoble-EMSE-LSU/Documentation/Biobricks

From 2013.igem.org

Revision as of 16:07, 19 September 2013

Biobricks

KillerRed

Main Functions

Structure

Origin

References