User:Josh K. Michener: Difference between revisions
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==Current Project== | ==Current Project== | ||
Combining biological parts is currently a very | Combining biological parts is currently a very difficult. Parts are connected in the hopes that the levels of POPS or RIPS will match. Currently, though, we do not have enough information to predict whether two parts will, in fact, function correctly. If, for instance, we connect two inverters in series, it is quite possible that switching the output of the first inverter will not be able to switch the second. Previous attempts to measure these levels have been unsuccessful. We hope to learn from this and try again. | ||
As such, I am building a set of POPS based screening plasmids. If all goes as planned, these plasmids will allow us to measure the transfer functions of parts (inverters or other) in units which are proportional to POPS (with the same constant of proportionality for the part's input and output). We will then try to pair up parts and verify that the behavior is as expected. | As such, I am building a set of POPS based screening plasmids. If all goes as planned, these plasmids will allow us to measure the transfer functions of parts (inverters or other) in units which are proportional to POPS (with the same constant of proportionality for the part's input and output). We will then try to pair up parts and verify that the behavior is as expected. |
Revision as of 06:38, 1 June 2005
Josh Michener (jkm at mit dot edu)
Currently an undergraduate at MIT, working as a UROP in the Endy Lab.
Bio
MIT Class of 2006, majoring in Chemical Engineering and Biology
Current Project
Combining biological parts is currently a very difficult. Parts are connected in the hopes that the levels of POPS or RIPS will match. Currently, though, we do not have enough information to predict whether two parts will, in fact, function correctly. If, for instance, we connect two inverters in series, it is quite possible that switching the output of the first inverter will not be able to switch the second. Previous attempts to measure these levels have been unsuccessful. We hope to learn from this and try again.
As such, I am building a set of POPS based screening plasmids. If all goes as planned, these plasmids will allow us to measure the transfer functions of parts (inverters or other) in units which are proportional to POPS (with the same constant of proportionality for the part's input and output). We will then try to pair up parts and verify that the behavior is as expected.