20.109(S11):Assay modified model system (Day7)

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20.109(S11): Laboratory Fundamentals of Biological Engineering

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Introduction

Protocols

β-gal assay of modified system

Follow the protocol on...

Observe solid cultures of IPTG-sensitive systems

Journal article discussion

Preface and Goals

The Hasty lab paper is probably more difficult for most of us to understand than was the paper we read in Module 1. For this reason, we will very much be approaching the figure assignments and resulting discussion as a collective attempt to elucidate the paper. Your brief presentation of a figure/topic from the paper should demonstrate that you have become familiar with it as best you can, but it's okay not to understand every detail. You may find that another group's presentation helps make sense of a piece you can't yet grasp. You should also feel welcome to switch figure assignments with another team, if you each have expertise (e.g., background on modeling or microfluidics) that may help you present each other's section. The important thing is that everyone is responsible for a careful reading of some part of the paper.

General Discussion Points

  • Introduction: How do the authors frame their topic and promote interest in it?
  • Results: Spatiotemporal data can be difficult to present clearly. What do you think about the data presentation in this paper? What would you do the same and/or differently?
  • Discussion: What is the usefulness (current or potential) of this work? What are some limitations?
  • Methods: What might you include for sections on plasmid construction/plasmids used/strains used in your own paper?

Assigned Parts to Focus On

You may all refer to the relevant supplementary movies for your sections as well.

  1. Red group: Figure 1a; later Figure 4a and Supplementary Modeling section
    • Describe the genetic circuit and how it functions.
    • At a high level, what features are incorporated in the model and how? What is the main new feature compared to previous work modeling oscillators (see main text)?
  2. Orange group: Figure 1b, Supplementary Microscopy and Microfluidics section, Supp. Figure 4a
    • Describe the physical set-up for the experiments and how it works.
    • What considerations affected the design specifications of the chamber?
  3. Yellow group: Figure 1c-d, Figure 2a-b, Supplementary Data Analysis section, Supp. Figure 2
    • What principles underlie the dynamic behaviour of the system in general (i.e., why are there oscillations at all)?
    • Discuss the data collection and processing.
  4. Green group: Figure 2c-d; later Figure 4b
    • What wave parameters vary with flow-rate?
    • Briefly, what causes 'degrade-and-fire' oscillations (reference 44 of the paper can be found here)?
  5. Blue group: Figure 3a-b; Supplementary Space-Time plots section, Supp. Figure 3
    • What set-up/parameters were different here than in Figure 1?
    • Discuss the main features of the resulting dynamics.
  6. Pink group: Figure 3c-d; Figure 4c and Emergence main text
    • Briefly discuss the 3D system dynamics.
    • What effect does cell density have on system dynamics and why?
  7. Purple group: Figure 4d, Supplementary Figures 5 and 6 and Emergence main text
    • Discuss the relationship between diffusion (of what?) and velocity (of what?) in Figure 4d.
    • What other effect(s) does changing the diffusion coefficient have under various conditions?
    • What is one thing that modeling allowed the researchers to learn that they couldn't access experimentally?

TC demo (but not yet practice) today or next time?

For next time

Reagent list

text here so works

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