Difference between revisions of "Imacarae Week 11"

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(10 definitions: added term)
(10 definitions: added term)
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#'''Chelation:''' the combination of a metal ion with a chemical compound, forming a ring [https://www.biology-online.org/dictionary/Chelation]
 
#'''Chelation:''' the combination of a metal ion with a chemical compound, forming a ring [https://www.biology-online.org/dictionary/Chelation]
 
#'''Northern blot analysis:''' used to separate and identify RNA fragments; transfers RNA from an agarose gel to a nitrocellulose filter followed by probe detection [https://www.biology-online.org/dictionary/Northern_blot_analysis]
 
#'''Northern blot analysis:''' used to separate and identify RNA fragments; transfers RNA from an agarose gel to a nitrocellulose filter followed by probe detection [https://www.biology-online.org/dictionary/Northern_blot_analysis]
 +
#'''Ortholog/orthologous:'''genes or proteins found in different species that are so similar in their amino acid sequences that they are assumed to have originated from a single ancestral gene [https://www.oxfordreference.com/view/10.1093/acref/9780199766444.001.0001/acref-9780199766444-e-4762?rskey=to7TWK&result=1]
 
#'''Ubiquitination:''' the post-translational modification of one or more ubiquitin monomers (regulatory proteins) by covalent attachment [https://www.biology-online.org/dictionary/Ubiquitin]
 
#'''Ubiquitination:''' the post-translational modification of one or more ubiquitin monomers (regulatory proteins) by covalent attachment [https://www.biology-online.org/dictionary/Ubiquitin]
  

Revision as of 15:11, 12 November 2019

Imacarae's User Page

Assignment Shared Entries Individual Entries
Week 1 Class Journal Week 1 ----
Week 2 Class Journal Week 2 Imacarae Week 2
Week 3 Class Journal Week 3 HSF1/YGL073W Week 3
Week 4 Class Journal Week 4 Imacarae Week 4
Week 5 Class Journal Week 5 CancerSEA Week 5
Week 6 Class Journal Week 6 Imacarae Week 6
Week 7 Class Journal Week 7 Imacarae Week 7
Week 8 Class Journal Week 8 Imacarae Week 8
Week 9 Class Journal Week 9 Imacarae Week 9
Week 10 Class Journal Week 10 Imacarae Week 10
Week 11 Sulfiknights Imacarae Week 11
Week 12/13 Sulfiknights Sulfiknights DA Week 12/13
---- Sulfiknights Sulfiknights DA Week 14

Purpose

  • To create our team's home page and to get ourselves organized for the final project.
  • To learn how to search the primary literature.
  • To prepare and give a journal club presentation.

10 definitions

Research article Quantitative transciptome, proteome, and sulfur metabolite profiling of the Saccharomyces cerevisiae response to arsenitecan be found here

  1. Chelation: the combination of a metal ion with a chemical compound, forming a ring [1]
  2. Northern blot analysis: used to separate and identify RNA fragments; transfers RNA from an agarose gel to a nitrocellulose filter followed by probe detection [2]
  3. Ortholog/orthologous:genes or proteins found in different species that are so similar in their amino acid sequences that they are assumed to have originated from a single ancestral gene [3]
  4. Ubiquitination: the post-translational modification of one or more ubiquitin monomers (regulatory proteins) by covalent attachment [4]

Journal Outline

  1. What is the main result presented in this paper?
  2. What is the importance or significance of this work?
  3. What were the limitations in previous studies that led them to perform this work?
  4. How did they treat the yeast cells (what experiment were they doing?)
  5. What strain(s) of yeast did they use? Were the strain(s) haploid or diploid?
  6. What media did they grow them in? What temperature? What type of incubator? For how long?
  7. What controls did they use?
  8. How many replicates did they perform per treatment or timepoint?
  9. What method did they use to prepare the RNA, label it and hybridize it to the microarray?
  10. What mathematical/statistical method did they use to analyze the data?
  11. Are the data publicly available for download? From which web site?
  12. Briefly state the result shown in each of the figures and tables, not just the ones you are presenting.
  13. What do the X and Y axes represent?
  14. How were the measurements made?
  15. What trends are shown by the plots and what conclusions can you draw from the data?
  16. How does this work compare with previous studies?
  17. What are the important implications of this work?
  18. What future directions should the authors take?
  19. Give a critical evaluation of how well you think the authors supported their conclusions with the data they showed. Are there any major flaws to the paper?

Annotated Bibliography

Data/files

Conclusion

Acknowledgments

References

  • Thorsen, M., Lagniel, G., Kristiansson, E., Junot, C., Nerman, O., Labarre, J., & Tamás, M. J. (2007). Quantitative transcriptome, proteome, and sulfur metabolite profiling of the Saccharomyces cerevisiae response to arsenite. Physiological genomics, 30(1), 35-43. DOI: 10.1152/physiolgenomics.00236.2006
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