"
Page
Discussion
View source
History
teams
Log in
Team:SJTU-BioX-Shanghai
From 2013.igem.org
Revision as of 00:45, 29 October 2013 by
LukeLiu
(
Talk
|
contribs
)
(
diff
)
← Older revision
|
Latest revision
(
diff
) |
Newer revision →
(
diff
)
Menu
Search
Loading
Home
Project
Overview
Motivation
Black Box
Inside the BOX
Luminous System
Software
Devices
Light Sensors
Integration of Three lights
Red
Green
Blue
CRISPRi
Introdution to CRISPRi
Stay on Targets
Prospect
Prospect
Results
Tests
Luminous System
Verification of CRISPRi
Theory basis of three light systems
Overall System
Applications
Versatile
One Example - Fatty Acid Synthesis
Notebook
Protocol
Lab Log
Modeling
Light sensor characteristic
Report gene prediction
Metabolic optimization
Parts
Parts
Human Practice
Subject Cross
Research on Subject Cross
Biocraft
Communication
Safety
Safety Form
Security
Environment
Team
Our Team
Members & Attributions
1
2
3
4
5
?
How to regulate an
entire metabolic pathway
in vivo
, delicately,
accurately and conveniently
, simultaneously controlling the expression of
several
genes?
?
And how to
optimize metabolic fluxes so as to maximize desired products
?
For decades, these questions have haunted “bioengineers”(especially synthetic biologists), who would like to have certain metabolites produced in living cells.
The difficulty is again raised up when target genes endogenously reside on the
genome
, or have been implemented into the genome.
So this year, our team, SJTU-BioX-Shanghai, is dedicated to solve the problem. We offer our product, the METABOLIC GEAR BOX, as a versatile BLACK BOX that can be conveniently applied in the optimization of whatever pathways. See
Tutorial/General Protocol (How to Use the Box)
Inside the BOX, we integrate Luminous System, Light Sensors and CRISPRi. Luminous system and light sensors are used to address the problem of multiple gene regulation, while CRISPRi addresses the problem of genomic regulation. See
Problems
and
Our Solutions
DIY! ( *・ω・)✄
How to make the box?
How to assemble the box?
Family Portrait!
Follow us
Facebook
Twitter