2020(S11) Lecture:week 2

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(Introducing Synthia!)
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==<font color = blue>Introducing Synthia!</font color>==
==<font color = blue>Introducing Synthia!</font color>==
[[Image:Venter Synthia.png|thumb|right|300px| from [http://vodpod.com/watch/5218010-j-craig-venter-mad-scientist-or-sorcerer-inventor-of-synthia] ]] Let's begin by looking at another comic strip. This one is from the [http://www.etcgroup.org/en/issues/synthetic_biology ETC group,] an international civil society. [[Media:ETC Synthia.jpg| This comic]] reacts to [http://www.jcvi.org/ J. Craig Venter Institute] plan to build a synthetic cell. <br>
[[Image:Venter Synthia.png|thumb|right|300px| from [http://vodpod.com/watch/5218010-j-craig-venter-mad-scientist-or-sorcerer-inventor-of-synthia] ]] Let's begin by looking at another comic strip. This one is from the [http://www.etcgroup.org/en/issues/synthetic_biology ETC group,] an international civil society. [[Media:ETC Synthia.jpg| This comic]] reacts to [http://www.jcvi.org/ J. Craig Venter Institute] plan to build a synthetic cell. <br>
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Next, let's consider in detail the primary journal article that describes this technical feat and the reactions to it. The review slides for today are [[Media:SyntheticCell.ppt here.]] Our conversation will cover:
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Next, let's consider in detail the primary journal article that describes this technical feat and the reactions to it. The review slides for today are [[Media:SyntheticCell.ppt| here.]] Our conversation will cover:
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#*[[Media:SyntheticCell Sci2010.pdf| the technical accomplishment itself]] (May 2010)  
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*[[Media:SyntheticCell Sci2010.pdf| the technical accomplishment itself]] (May 2010)  
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#*the reaction to the [http://www.jcvi.org/cms/research/projects/first-self-replicating-synthetic-bacterial-cell/overview/ announcement,] including [[Media:Letter-from-President-Obama-05.20.10.pdf| Barack Obama's call]] for a [http://www.bioethics.gov/ BioEthics Panel] to review the field (May 2010)
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*the reaction to the [http://www.jcvi.org/cms/research/projects/first-self-replicating-synthetic-bacterial-cell/overview/ announcement,] including [[Media:Letter-from-President-Obama-05.20.10.pdf| Barack Obama's call]] for a [http://www.bioethics.gov/ BioEthics Panel] to review the field (May 2010)
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#*the work of the BioEthics Panel, including the procedures for gathering information and [http://www.bioethics.gov/documents/synthetic-biology/PCSBI-Synthetic-Biology-Report-12.16.10.pdf the recommendations] that the panel ultimately offered (December 2010)
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*the work of the BioEthics Panel, including the procedures for gathering information and [http://www.bioethics.gov/documents/synthetic-biology/PCSBI-Synthetic-Biology-Report-12.16.10.pdf the recommendations] that the panel ultimately offered (December 2010)
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#*[http://content.usatoday.com/communities/sciencefair/post/2010/12/synthetic-biology-bioethics-panel-reaction-round-up/1 reactions] of government, scientists and watchdog groups to the recommendations
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*[http://content.usatoday.com/communities/sciencefair/post/2010/12/synthetic-biology-bioethics-panel-reaction-round-up/1 reactions] of government, scientists and watchdog groups to the recommendations
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==<font color = blue>Your Turn!</font color>==
==<font color = blue>Your Turn!</font color>==
Last week you chose a few areas that were of  
Last week you chose a few areas that were of  

Revision as of 08:37, 29 January 2011

Contents

Week 2 Tuesday

E. chromi

Let's start with an analogy that's a perennial favorite for engineers: consider a car....A car is a highly engineered system of interconnected parts. Many car parts are similar from car to car, but often the parts must be tailored to the size and function of the car. The chassis of a truck, a GTO muscle car and a Toyota hybrid are different, and so are many of the internal parts that make up the engine and the drive train. We might be able to move a radio from a truck chassis to a sports car chassis, but not much else. The car manufacturers are comfortable with this complexity, and it has little effect on the user of the car.

Now think about building a DNA program that runs a cell. We saw last week how a yeast gene could be moved to bacteria, allowing those cells to smell like bananas under certain growth conditions. From this one experiment you might be inclined to think that DNA parts will run reliably, independent their cellular context. Today you will explicitly test that notion.

Genetic Programs

You will compare the behavior of two genetic programs:

  • pPRL, a purple color generator
  • pGRN, a green color generator

These genetic programs were designed, constructed, and tested by the 2009 University of Cambridge iGEM team.

Cellular Chassis

In small groups, you will put these programs into two kinds of E. coli

If you are curious about the ancestry of these two "breeds," there is an interesting article linked here. The short version of the story is that the K-12 strain was isolated from a stool sample of a dipthertia patient in Palo Alto, CA and domesticated for the lab by Tatum and Lederberg around 1922. By contrast, a B-type strain was used in the early 1900s by the Phage Group at the Institute Pasteur. Both types of E. coli are still widely used in research labs today.

Procedure

  1. Begin by reviewing BioPrimer 7. If you'd prefer you can download it here.Is it clear what the differences are between the 2 strains of bacteria we'll be studying? What about the genetic programs?
  2. Next we'll watch a short animation about the technique of DNA transformation. Is it clear what the steps are and why they are performed?
  3. Finally, you'll work in small groups to transform the purple or the green color generators into Strains 4-1 or 4-2 as described here.
  4. When you are done performing these manipulations, please wash your hands.
  5. The petri dishes will be incubated at 37° overnight and you will examine the results of your work tomorrow.
  6. Before you leave today, we'll consider these questions:
  • Did you make any mistakes that might affect the outcome of this experiment?
  • How confident are you in the results you'll see tomorrow?
    • Are you expecting colonies on all the plates? Are you expecting the same numbers on all plates?
    • Are you expecting the colonies to all look the same?
  • If there are differences tomorrow, how will you explain them?
  • If there are differences tomorrow, what could you do to test your explanations?
Why are we doing this??

You've taken some seemingly simple steps today and done something pretty awesome, namely intentionally imbued a bacterial host with properties you've chosen. Tomorrow, if all has gone well, you'll see colorful, antibiotic-resistant bacteria growing on the petri dishes. This transformation technology has been a routine lab procedure for a generation or so.
Consider, though, what it will mean, as we get better at reading DNA programs that exist in nature, and also better at writing DNA programs that we dream up. DNA synthesis is a key enabling technology in synthetic biology, one we'll hear a lot more about tomorrow. In advance of that discussion, you might watch the DNA synthesis animation on the BioBuilder website, and also look at the journal article we'll be discussing. The article describes what the authors call a "synthetic cell."

Week 2 Studio

E. chromi, Day 2

You'll remember that yesterday we transformed the purple or the green color generators into Strains 4-1 or 4-2. Record the following data: Consider again these questions from yesterday:

  • Did any mistakes you made seem to affect the outcome of this experiment?
  • How accurately did you predict the outcome you see?
    • Do you see colonies on the plates you expected? Do you see the same numbers of colonies on all plates?
    • Do all the colonies look the same?
  • If you see differences, how can you explain them?
  • If you see differences, what could you test your explanations?
  1. Finally, before we leave this exercise about chassis effects, upload your data to the BioBuilder website

Introducing Synthia!

from [1]
from [1]
Let's begin by looking at another comic strip. This one is from the ETC group, an international civil society. This comic reacts to J. Craig Venter Institute plan to build a synthetic cell.

Next, let's consider in detail the primary journal article that describes this technical feat and the reactions to it. The review slides for today are here. Our conversation will cover:

Why are we doing this??

These are current events, some happening only weeks ago. These current events will affect the progress of the field of synthetic biology. The events model how a civil society can address contentious issues. Finally, this lesson should inform your thinking and help you plan your work in 20.020 and your life in 2020 and beyond.

Your Turn!

Last week you chose a few areas that were of

Homework

Week 2 Thursday

== Welcome Pete Carr!==
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