Dueber Lab: Difference between revisions
From OpenWetWare
Jump to navigationJump to search
No edit summary |
No edit summary |
||
| Line 2: | Line 2: | ||
People <br> | '''People '''<br> | ||
John Dueber <jdueber@berkeley.edu> <br> | John Dueber <jdueber@berkeley.edu> <br> | ||
Ghulam Reza K Malmirchegini <rezak@uclink.berkeley.edu> <br> | Ghulam Reza K Malmirchegini <rezak@uclink.berkeley.edu> <br> | ||
| Line 8: | Line 8: | ||
Weston Whitaker <westonwhitaker@gmail.com> <br> | Weston Whitaker <westonwhitaker@gmail.com> <br> | ||
Address <br> | '''Address '''<br> | ||
Room 166 | Room 166 | ||
717 Potter St. <br> | 717 Potter St. <br> | ||
| Line 14: | Line 14: | ||
Brief research description | '''Brief research description''' <br> | ||
We have two separate projects in collaboration with the laboratories of Jay Keasling and Adam Arkin. In both, we are using modular strategies to rewire/reprogram pathways - metabolic pathways with Jay Keasling and two-component signaling with Adam Arkin. We are exploring forward engineering principles within the burgeoning field of synthetic biology. | We have two separate projects in collaboration with the laboratories of Jay Keasling and Adam Arkin. In both, we are using modular strategies to rewire/reprogram pathways - metabolic pathways with Jay Keasling and two-component signaling with Adam Arkin. We are exploring forward engineering principles within the burgeoning field of synthetic biology. | ||
Revision as of 11:00, 15 July 2006
webpage of john dueber's lab.
People
John Dueber <jdueber@berkeley.edu>
Ghulam Reza K Malmirchegini <rezak@uclink.berkeley.edu>
Alan Masinter <palanq@berkeley.edu>
Weston Whitaker <westonwhitaker@gmail.com>
Address
Room 166
717 Potter St.
Berkeley, CA 94720-3224
Brief research description
We have two separate projects in collaboration with the laboratories of Jay Keasling and Adam Arkin. In both, we are using modular strategies to rewire/reprogram pathways - metabolic pathways with Jay Keasling and two-component signaling with Adam Arkin. We are exploring forward engineering principles within the burgeoning field of synthetic biology.
