Difference between revisions of "Team:CU-Boulder/Description"
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<h3> Why we chose Bacterial Micro-Compartments </h3> | <h3> Why we chose Bacterial Micro-Compartments </h3> | ||
<p class = "main">Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance.Instead Neptune, another light activated protein that is excited at a much longer wavelength, will be used to visualize the formation and destruction of EutS microcompartments. Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance. Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance.Future work will focus on the implementation of a multiconstruct system with EutS. Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance. Successful microscopy has confirmed the viability of EutS and EutC-eGFP in E.Coli, but the laser used to excite eGFP may also cause conformational change of azo-benzene. Instead Neptune, another light activated protein that is excited at a much longer wavelength, will be used to visualize the formation and destruction of EutS microcompartments. Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance. </p> | <p class = "main">Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance.Instead Neptune, another light activated protein that is excited at a much longer wavelength, will be used to visualize the formation and destruction of EutS microcompartments. Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance. Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance.Future work will focus on the implementation of a multiconstruct system with EutS. Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance. Successful microscopy has confirmed the viability of EutS and EutC-eGFP in E.Coli, but the laser used to excite eGFP may also cause conformational change of azo-benzene. Instead Neptune, another light activated protein that is excited at a much longer wavelength, will be used to visualize the formation and destruction of EutS microcompartments. Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance. </p> | ||
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<figure style="float:right"> | <figure style="float:right"> | ||
<img src="https://static.igem.org/mediawiki/2016/e/e3/Jonah1.jpg" style="width:350px;height:458px;margin-right: 70px; padding: 10px 10px 10px 10px; float:right"> | <img src="https://static.igem.org/mediawiki/2016/e/e3/Jonah1.jpg" style="width:350px;height:458px;margin-right: 70px; padding: 10px 10px 10px 10px; float:right"> | ||
Revision as of 16:24, 10 October 2016
Project Description
BLAH BLAH BLAH SCIENCE BLAH
Why we chose Bacterial Micro-Compartments
Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance.Instead Neptune, another light activated protein that is excited at a much longer wavelength, will be used to visualize the formation and destruction of EutS microcompartments. Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance. Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance.Future work will focus on the implementation of a multiconstruct system with EutS. Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance. Successful microscopy has confirmed the viability of EutS and EutC-eGFP in E.Coli, but the laser used to excite eGFP may also cause conformational change of azo-benzene. Instead Neptune, another light activated protein that is excited at a much longer wavelength, will be used to visualize the formation and destruction of EutS microcompartments. Future work will focus on the implementation of a multiconstruct system with EutS, EuC-Neptune, and a third construct that creates tRNA’s to integrate azo-benzene into the EutS at locations we expect to see significant steric hinderance.
