BFS GOTChAs, April 2010: Difference between revisions

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* Characterize the performance of existing transcriptional regulators across 3 cell strains, 3 growth media and 3 loading conditions.
* Characterize the performance of existing transcriptional regulators across 3 cell strains, 3 growth media and 3 loading conditions.
* Design a compensation circuit that measures output level and regulates device performance to compensate for uncertainty
* Design a compensation circuit that measures output level and regulates device performance to compensate for uncertainty
** Idea #1: use RNA-based feedback in 5' UTR sequences to measure transcription and compensate
** Idea: use RNA-based feedback in 5' UTR sequences to measure transcription and compensate
** Note: feedback dynamics should be 5-10X regulatory dynamics to allow for use in non-equilibrium circuits
* Measure the performance of one or more compensation circuits and compare to existing regulators
* Measure the performance of one or more compensation circuits and compare to existing regulators
* Regulation circuitry should be "internal" to device, so that inputs and outputs are the same as traditional regulator
* Regulation circuitry should be "internal" to device, so that inputs and outputs are the same as traditional regulator
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==== Approach ====
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Revision as of 00:13, 29 April 2010

This page contains some GOTChA charts for possible rotation projects in the lab this summer.

Device Projects

The following GOTChAs are for projects that involve building new device technologies that can be used to push biological circuit design forward.

Integrated Load and Context Compensation

Goals

  • Design a transcriptional regulator that uses feedback to compensate for changes in load and changes in context and thus provides consistent performance independent of downstream loading or cellular context (cell strain, growth media)
  • Example: A -| B, designed so that transfer curve is maintained across changes in downstream reactions involving B, cell strain, growth media

Technical Challenges

Objectives

  • Characterize the performance of existing transcriptional regulators across 3 cell strains, 3 growth media and 3 loading conditions.
  • Design a compensation circuit that measures output level and regulates device performance to compensate for uncertainty
    • Idea: use RNA-based feedback in 5' UTR sequences to measure transcription and compensate
    • Note: feedback dynamics should be 5-10X regulatory dynamics to allow for use in non-equilibrium circuits
  • Measure the performance of one or more compensation circuits and compare to existing regulators
  • Regulation circuitry should be "internal" to device, so that inputs and outputs are the same as traditional regulator

Approach

Fast Mechanisms for Biomolecular Feedback

Objectives

Goals

Technical Challenges

Approach

Robustness Projects

CAGEN

Objectives

Goals

Technical Challenges

Approach

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