Difference between revisions of "DNA Melting Report Requirements for Part 1"
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* One member of your group should submit a single PDF file to Stellar in advance of the deadline. The filename should consist of the last names of all group members, CamelCased, in alphabetical order, with a .pdf extension. Example: <code>CrickFranklinWatson.pdf</code>. | * One member of your group should submit a single PDF file to Stellar in advance of the deadline. The filename should consist of the last names of all group members, CamelCased, in alphabetical order, with a .pdf extension. Example: <code>CrickFranklinWatson.pdf</code>. | ||
* The file must be less than 20 MB. | * The file must be less than 20 MB. | ||
− | * Include code at the end of the document in an appendix. | + | * Include code at the end of the document in an appendix, in the same pdf file, not as as separate upload. |
==Part 1 report outline== | ==Part 1 report outline== | ||
# Document your circuit design, optical design, and any ways that your instrument differs from the system described in the lab manual. | # Document your circuit design, optical design, and any ways that your instrument differs from the system described in the lab manual. | ||
+ | #* For example, record your choice of resistors, capacitors and lenses, as well as a diagram of your chosen optical components. | ||
+ | #* If you have not modified the circuits from their form in the report, you do not need to include the schematic in your report. | ||
+ | #* Include a picture of your instrument. | ||
+ | # Report your signal to noise measurement. | ||
# Plot at least one melting curve. | # Plot at least one melting curve. | ||
#* The plot should have temperature in °C on the horizontal axis and fraction of double stranded DNA on the vertical axis. | #* The plot should have temperature in °C on the horizontal axis and fraction of double stranded DNA on the vertical axis. | ||
#* On the same set of axes, include a simulated curve generated by DINAMelt, OligoCalc, or another software simulator. | #* On the same set of axes, include a simulated curve generated by DINAMelt, OligoCalc, or another software simulator. | ||
− | #* Also on the same set of axes, plot the output of the <tt>DnaFraction</tt> function evaluated with best-fit parameters. | + | #* Also on the same set of axes, plot the output of the <tt>DnaFraction</tt> function evaluated with best-fit parameters. You may use nlinfit to choose the best-fit parameters or you may choose them manually. |
#* Include a legend. | #* Include a legend. | ||
# Report the estimated melting temperature and the best-fit values of ''ΔH°'', ''ΔS°''. | # Report the estimated melting temperature and the best-fit values of ''ΔH°'', ''ΔS°''. | ||
− | |||
# Explain the statistical method you will use to identify your group's unknown sample in part 2 of this lab. | # Explain the statistical method you will use to identify your group's unknown sample in part 2 of this lab. | ||
#* State the acceptance/rejection criteria for any hypotheses tests you will use. | #* State the acceptance/rejection criteria for any hypotheses tests you will use. |
Revision as of 21:29, 4 November 2015
Report requirements
- One member of your group should submit a single PDF file to Stellar in advance of the deadline. The filename should consist of the last names of all group members, CamelCased, in alphabetical order, with a .pdf extension. Example:
CrickFranklinWatson.pdf
. - The file must be less than 20 MB.
- Include code at the end of the document in an appendix, in the same pdf file, not as as separate upload.
Part 1 report outline
- Document your circuit design, optical design, and any ways that your instrument differs from the system described in the lab manual.
- For example, record your choice of resistors, capacitors and lenses, as well as a diagram of your chosen optical components.
- If you have not modified the circuits from their form in the report, you do not need to include the schematic in your report.
- Include a picture of your instrument.
- Report your signal to noise measurement.
- Plot at least one melting curve.
- The plot should have temperature in °C on the horizontal axis and fraction of double stranded DNA on the vertical axis.
- On the same set of axes, include a simulated curve generated by DINAMelt, OligoCalc, or another software simulator.
- Also on the same set of axes, plot the output of the DnaFraction function evaluated with best-fit parameters. You may use nlinfit to choose the best-fit parameters or you may choose them manually.
- Include a legend.
- Report the estimated melting temperature and the best-fit values of ΔH°, ΔS°.
- Explain the statistical method you will use to identify your group's unknown sample in part 2 of this lab.
- State the acceptance/rejection criteria for any hypotheses tests you will use.
Lab manual sections
- Lab Manual:Measuring DNA Melting Curves
- DNA Melting: Simulating DNA Melting - Basics
- DNA Melting Part 1: Measuring Temperature and Fluorescence
- DNA Melting Report Requirements for Part 1
- DNA Melting Part 2: Lock-in Amplifier and Temperature Control
- DNA Melting Report Requirements for Part 2
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