Latest revision as of 21:12, 18 October 2013

Overview Project Overview

Luminous System Design Device Control

Light Sensors Tri-light! Red Green Blue

Regulator-CRISPRi Introdution to CRISPRi Why CRISPRi? Integrating CRISPRi

Project Overview

"Totipotent"! Change the target gene as you want by making some minor changes in gRNA sequence.

Easy to adjust! Get rid of those laborious work of adding inducing chemicals! :)

Multi-control! lights of different colors can be exerted simultaneously. And one sensor will only be activated by photons with a narrow range of wavelengths.

Computer and Electronics! Experience the information century!

Input your desired expression level into our User Interface on the computer. And just leave rest of the work to our program and our illuminating device!

@@ Line 43: / Line 43: @@
 * "Totipotent"! Change the target gene as you want by making some minor changes in gRNA sequence.
-=<font color=white>Why Light?</font>=
+=<font color=white>Why Lights?</font>=
 * Easy to adjust! Get rid of those laborious work of adding inducing chemicals! :)
@@ Line 53: / Line 53: @@
 * Uniformly distribute in cell culture.
-=<font color=white>Why CRISPRi AND Light?</font>=
+=<font color=white>Why CRISPRi AND Lights?</font>=
-* Sensors alone? CANNOT be easily applied on genomic genes.
+* Lights alone? CANNOT be easily applied on genomic genes.
 * CRISPRi alone? HARD to be simultaneous; NOT convenient.
@@ Line 61: / Line 61: @@
 =<font color=white>Why Computer?</font>=
 Computer and Electronics! Experience the information century!
-* Input your desired expression level into the computer. And just leave the rest to our program and illuminating device to adjust to your specific requirement.
+* Input your desired expression level into our User Interface on the computer. And just leave rest of the work to our program and our illuminating device!
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