BIOL368/F16:Week 15: Difference between revisions
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* Brown, P.O. & Botstein, D. (1999) [http://www.nature.com/ng/journal/v21/n1s/full/ng0199supp_33.html Exploring the new world of the genome with DNA microarrays] ''Nature Genetics'' 21: 33-37. | * Brown, P.O. & Botstein, D. (1999) [http://www.nature.com/ng/journal/v21/n1s/full/ng0199supp_33.html Exploring the new world of the genome with DNA microarrays] ''Nature Genetics'' 21: 33-37. | ||
* Campbell, A.M. and Heyer, L.J. (2003), “Chapter 4: Basic Research with DNA Microarrays”, in ''Discovering Genomics, Proteomics, and Bioinformatics'', Cold Spring Harbor Laboratory Press, pp. 107-124. ([https://mylmuconnect.lmu.edu/webapps/portal/frameset.jsp?tab_tab_group_id=_2_1&url=%2Fwebapps%2Fblackboard%2Fexecute%2Flauncher%3Ftype%3DCourse%26id%3D_33586_1%26url%3D Available on MyLMUConnect]) | * Campbell, A.M. and Heyer, L.J. (2003), “Chapter 4: Basic Research with DNA Microarrays”, in ''Discovering Genomics, Proteomics, and Bioinformatics'', Cold Spring Harbor Laboratory Press, pp. 107-124. ([https://mylmuconnect.lmu.edu/webapps/portal/frameset.jsp?tab_tab_group_id=_2_1&url=%2Fwebapps%2Fblackboard%2Fexecute%2Flauncher%3Ftype%3DCourse%26id%3D_33586_1%26url%3D Available on MyLMUConnect]) | ||
* [https://bmcbioinformatics.biomedcentral.com/articles/10.1186/1471-2105-7-191 Ernst, J., & Bar-Joseph, Z. (2006). STEM: a tool for the analysis of short time series gene expression data. BMC bioinformatics, 7(1), 1. DOI: 10.1186/1471-2105-7-191] | |||
=== Journal Club Papers === | === Journal Club Papers === |
Revision as of 14:24, 5 December 2016
This page is currently under construction.
This journal entry is due on Tuesday, December 13 at midnight PDT (Monday night/Tuesday morning). NOTE that the server records the time as Eastern Daylight Time (EDT). Therefore, midnight will register as 03:00.
Background
References
Background Reading on Microarrays
- Brown, P.O. & Botstein, D. (1999) Exploring the new world of the genome with DNA microarrays Nature Genetics 21: 33-37.
- Campbell, A.M. and Heyer, L.J. (2003), “Chapter 4: Basic Research with DNA Microarrays”, in Discovering Genomics, Proteomics, and Bioinformatics, Cold Spring Harbor Laboratory Press, pp. 107-124. (Available on MyLMUConnect)
- Ernst, J., & Bar-Joseph, Z. (2006). STEM: a tool for the analysis of short time series gene expression data. BMC bioinformatics, 7(1), 1. DOI: 10.1186/1471-2105-7-191
Journal Club Papers
- Hebly, M., de Ridder, D., de Hulster, E. A., de la Torre Cortes, P., Pronk, J. T., & Daran-Lapujade, P. (2014). Physiological and transcriptional responses of anaerobic chemostat cultures of Saccharomyces cerevisiae subjected to diurnal temperature cycles. Applied and environmental microbiology, 80(14), 4433-4449. doi: 10.1128/AEM.00785-14
- Schade, B., Jansen, G., Whiteway, M., Entian, K. D., & Thomas, D. Y. (2004). Cold Adaptation in Budding Yeast. Molecular Biology of the Cell, 15(12), 5492-5502. doi: 10.1091/mbc.E04-03-0167
- Tai, S. L., Daran-Lapujade, P., Walsh, M. C., Pronk, J. T., & Daran, J. M. (2007). Acclimation of Saccharomyces cerevisiae to low temperature: a chemostat-based transcriptome analysis. Molecular Biology of the Cell, 18(12), 5100-5112. doi: 10.1091/mbc.E07-02-0131
Overview of DNA Microarray Analysis
This is a list of steps required to analyze DNA microarray data.
- Quantitate the fluorescence signal in each spot in the microarray image.
- Typically performed by the scanner software, although third party software packages do exist.
- The image of the microarray slide and this quantitation are considered the "raw-est" form of the data.
- Ideally, this type of raw data would be made publicly available upon publication.
- In practice, the image data is usually not made available because the raw image file of one slide could be up to 100 MB in size.
- Also, some journals do not require data deposition as a requirement for publication, so often published data are not actually available anywhere for download.
- Microarray data is not centrally located on the web. Some major sources are:
- NCBI GEO
- EBI ArrayExpress
- Stanford Microarray Database
- PUMAdb (Princeton Microarray Database)
- In addition, microarray data can sometimes be found as supplementary information with a journal article or on an investigator's own web site.
- Calculate the ratio of red/green fluorescence
- Log(base 2) transform the ratios
- Normalize the log ratios on each microarray slide
- Normalize the log ratios for a set of slides in an experiment
- Perform statistical analysis on the log ratios
- Compare individual genes with known data
- Look for patterns (expression profiles; clusters) in the data (many programs are available to do this)
- Perform Gene Ontology term enrichment analysis (we will use MAPPFinder for this)
- Map onto biological pathways (we will use GenMAPP for this)
Individual Journal Assignment
- Store this journal entry as "username Week 15" (i.e., this is the text to place between the square brackets when you link to this page).
- Create the following set of links. These links should all be in your personal template; then use the template on your journal entry.
- Link to your journal entry from your user page.
- Link back from your journal entry to your user page.
- Link to this assignment from your journal entry.
- Don't forget to add the "BIOL368/F16" category to the end of your wiki page.
Homework Partners
You will work in the same groups as last week.
- Matt A., Matt O., Mia, Colin: Hebly (2014); Δswi4 Dahlquist lab data
- Shivum, Isai, Anu, Will: Tai et al. (2007); Δgln3 Dahlquist lab data
- Avery, Courtney, Jordan, Zach: Schade et al. (2004); wt Dahlquist lab data
Complete Microarray Data Analysis
- Using the spreadsheet that you submitted for the Week 14 Assignment, you will now complete GenMAPP and MAPPFinder analysis of your dataset.
- Dr. Dahlquist has added her calculations on your dataset to your spreadsheets and has uploaded them to the wiki.
- Compare your results in your "forGenMAPP" sheet with the ones designated "_norm_KD" and "_notnorm_KD". I computed the statistics both with ("norm") and without ("notnorm") scaling and centering the data, so there should be two comparisons to make.
- Re-do the sanity check at p < 0.05 as a quick measure of how similar the sheets are. We will decide in class which analysis to go with for the rest of the project.
- Find one gene in your journal article for which the log2 fold change (or fold change) is reported. Look it up in your dataset to see if the numbers are similar. We will also use this to decide which set of calculations to use going forward.
- You will need to re-do the complete sanity check to get the data to present in your final research presentation next week.
- This page gives a sample protocol for the analysis of a Vibrio cholerae dataset.
- Dr. Dahlquist has added her calculations on your dataset to your spreadsheets and has uploaded them to the wiki.
- You will keep a detailed electronic notebook page that details all of the data manipulations and calculations that you perform on your dataset.
- You will upload the following list of files (note that it may be easier to zip all of these files together and then upload them as a single zipped file, rather than zipping and uploading individually, for filetypes not allowed by OpenWetWare).
- Your exceptions file when you imported your data into GenMAPP:
.EX.txt
- Your Expression Dataset file:
.gex
- Your GO results files:
XXX-CriterionX-GO.txt
- Your GO results saved as Excel spreadsheets with filters applied:
.xls
or.xlsx
- The MAPP you looked at:
.mapp
- The MAPPFinder GO mappings file:
.gmf
- Your exceptions file when you imported your data into GenMAPP:
Final Research Presentation
- Your Final Research Presentation will be formatted similarly to your previous research presentations.
- Your presentation will be 15-20 minutes long (approximately 15-20 slides, one per minute). Include:
- Title slide
- Outline slide
- Background about your microarray dataset (from your journal club)
- The experimental design of the microarray experiment
- A table that lists the number of genes with significant changes in expression at the p value cut-offs of < 0.05, < 0.01, < 0.001, and Bonferroni-corrected p < 0.05.
- A list of the top 10 "most significant" genes and their functions.
- Tables that list the MAPPFinder results for increased and decreased gene expression.
- Discussion and interpretation of your results, in comparison to the original journal club paper.
- Upload your slides to the OpenWetWare wiki by the Week 15 journal assignment deadline. You may make changes to your slides in advance of your presentation, but you will be graded on what you upload by the journal deadline.
- Use these Presentation Guidelines when preparing your PowerPoint slides.
- Your presentation will also be graded on the following Presentation Rubric.
Note: The individual journal entry for this week is worth 10 points like all other journal entries. The research presentation is worth 80 points.
Academic Honesty
As discussed in class, each weekly individual journal assignment needs to conclude with an Acknowledgments and References section.
Acknowledgments
In this section, you need to acknowledge anyone who assisted you with your assignment, either in person, electronically, or even anonymously without their knowledge (see below).
- You must acknowledge your homework partner or team members with whom you worked, giving details of the nature of the collaboration. An appropriate statement could be (but is not limited to) the following:
- I worked with my homework partner (give name and link name to their user page) in class. We met face-to-face one time outside of class. We texted/e-mailed/chatted online three times. We worked on the <details> portion of the assignment together.
- Sign this statement with your wiki signature.
- I worked with my homework partner (give name and link name to their user page) in class. We met face-to-face one time outside of class. We texted/e-mailed/chatted online three times. We worked on the <details> portion of the assignment together.
- Acknowledge anyone else you worked with who was not your assigned partner. This could be Dr. Dahlquist (for example, via office hours), the TA, other students in the class, or even other students or faculty outside of the class.
- If you copied
wiki syntax
or a particular style from another wiki page, acknowledge that here. Provide the user name of the original page, if possible, and provide a link to the page from which you copied the syntax or style. If you need to reference content, use your References section (see below). - You must also include this statement unless otherwise noted: "While I worked with the people noted above, this individual journal entry was completed by me and not copied from another source."
References
- In this section, you need to provide properly formatted citations to any content that was not entirely of your own devising. This includes, but is not limited to:
- data
- facts
- images
- documents, including the scientific literature
- The references in this section should be accompanied by in text citations on your page that refer to these references.
- The references should be formatted according to the APA guidelines.
- For more detailed guidelines, please see the document Guidelines for Literature Citations in a Scientific Paper that you were given on the first day of class.
- Store your journal entry in the shared BIOL368/F16:Class Journal Week 15 page. If this page does not exist yet, go ahead and create it.
- Link to the shared journal entry from your user page; this should be part of your template.
- Link the shared journal page to this assignment page.
- Sign your portion of the journal with the standard wiki signature shortcut (
~~~~
). - Add the "BIOL368/F16" category to the end of the wiki page (if someone has not already done so).
Reflection
For your last reflection you will reflect on this entire semester:
- What is the most important thing that you learned this semester in this class?
- With your head (biological or bioinformatics principles)
- With your heart (personal qualities and teamwork qualities that make things work or not work)?
- With your hands (technical skills)?
- What will you take away from this class that you will still use a year from now?