Difference between revisions of "Team:Nanjing-China/1"
| Line 167: | Line 167: | ||
font-family:"Courier New", Courier, monospace;} | font-family:"Courier New", Courier, monospace;} | ||
#i-menu .i-menu-button ul{ margin: auto; padding:0; list-style:none; width:250px; height:150px; line-height:150px; text-align:center; float:left;} | #i-menu .i-menu-button ul{ margin: auto; padding:0; list-style:none; width:250px; height:150px; line-height:150px; text-align:center; float:left;} | ||
| − | #i-menu .i-menu-button ul a:hover{ background:rgba(102,102,153,0.5); color:#FFFFFF; height:160px; font-size:42px;} | + | #i-menu .i-menu-button ul a:hover{ background:rgba(102,102,153,0.5); color:#FFFFFF; height:160px; font-size:42px; padding:0px; |
| + | } | ||
#i-menu .i-menu-button ul a{ text-decoration:none; color:#000;} | #i-menu .i-menu-button ul a{ text-decoration:none; color:#000;} | ||
#i-menu ul{ | #i-menu ul{ | ||
| Line 176: | Line 177: | ||
color:#003; | color:#003; | ||
} | } | ||
| − | #i-menu ul a:hover{ background:rgba(102,102,153,0.7); color:#FFFFFF; width:260px; height:160px; font-family: "Comic Sans MS", cursive; font-size:42px; | + | #i-menu ul a:hover{ background:rgba(102,102,153,0.7); color:#FFFFFF; width:260px; height:160px; font-family: "Comic Sans MS", cursive; font-size:42px; padding:0px; |
| + | |||
| + | } | ||
| + | #i-menu ul a#on{ background:rgba(102,102,153,0.7); width:260px; height:160px; padding:0px; | ||
} | } | ||
| − | |||
</style> | </style> | ||
<script type="text/javascript" src="https://2018.igem.org/Team:Nanjing-China/Javascript:1?action=raw&ctype=text/javascript"></script> | <script type="text/javascript" src="https://2018.igem.org/Team:Nanjing-China/Javascript:1?action=raw&ctype=text/javascript"></script> | ||
Revision as of 12:57, 11 June 2018
Introduction
Light-driven nitrogen fixation system by whole-cell Our team Nanjing-China 2018 intends to establish a sound and ideal whole-cell photocatalytic nitrogen fixation system using E. coli cells engineered with certain proteins and inorganic materials. Thus, the engineered microorganisms that express nitrogenase as well as have the capability of in situ biosynthesis of CdS nanocrystals for the existence of the surface-displayed heavy lead-specific binding proteins is developed. Such system is able to reduce N2 to NH3 driven by light instead of ATP-hydrolysis with considerably high efficiency. The accomplishment of this shall ease the heavy burden of the environment and contribute to the further and better utilization of clean solar energy.
Address
Life Science Department
#163 Xianlin Blvd, Qixia District
Nanjing University
Nanjing, Jiangsu Province
P.R. of China
Zip: 210046
