Difference between revisions of "YBR138C"

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(Community Commentary)
(Community Commentary)
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In this image we see that tests 2&3 are surviving and tests 1&4 are not doing as well under this stress. 1 is very low compared to 3 and this is kind of weird. The three Growth models are YBR138C not be stressed.
 
In this image we see that tests 2&3 are surviving and tests 1&4 are not doing as well under this stress. 1 is very low compared to 3 and this is kind of weird. The three Growth models are YBR138C not be stressed.
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===Effect of 3% DMSO on YBR138C===
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[[Image:Effect_of_3%_DMSO_on_YBR138C.png|600px]]
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The graph above shows the effect of 3% DMSO on YBR138C. From the data represented the average doubling rate for the YBR138C knockout strain without DMSO was 570 minutes. When DMSO is added the average doubling time increased to 835 minutes. This shows that 3% DMSO did add stress to this knockout strain. The average doubling time of WT:BY4735 without DMSO was 514 minutes. The average doubling rate for WT:BY4735 with DMSO was 1529 minutes. If we compare the average doubling rate of WT:BY4735 with DMSO to YBR138C with DMSO we can see that without the YBR138C gene the yeast was able to grow more quickly under DMSO induced stress, so much so that it almost halves the doubling time. Given both controls it also appears that the YBR138C gene has very little effect on the growth of the yeast in optimal conditions.
  
 
==Ethanol Tolerance in YBR138C==
 
==Ethanol Tolerance in YBR138C==

Revision as of 10:59, 13 December 2019

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Systematic name YBR138C
Gene name
Aliases HDR1
Feature type ORF, Uncharacterized
Coordinates Chr II:515336..513762
Primary SGDID S000000342


Description of YBR138C: Cytoplasmic protein of unknown function, potentially phosphorylated by Cdc28p; YBR138C is not an essential gene[1][2][3]




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Community Commentary

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Protein Details

Protein Modification

Modification(s): Phosphorylation

Identified as an efficient substrate of Clb2-Cdk1-as1 in a screen of a proteomic GST-fusion library. [3] [4]


This gene is part of the UW-Stout Orphan Gene Project. Learn more here.

Growth Curve

YBR138C YPD.png

In a BY4735 background, knocking out YBR138C seems to have no effect on growth rate in log-phase. In this assay, the BY4735 strain's doubling time was 414 minutes, while the YBR138C knock-out strain's doubling time was 432minutes. (These doubling times are the means of three experiments.)

Caffeine and Yeast Cells

megan24.png

This graph shows the growth curve with and without caffeine. It has the knockout strain and wild type yeast cells. The caffeine enhanced the growth in both wild type and knockout strain. The average doubling time between the three experiments for the knockout strand was 689.46 minutes. The caffeine also had a positive effect on the growth curve for the wild type with the average doubling time being 1245.02 minutes. The results were concluded from the wild type and knockout strand was with this amount of caffeine it leads to an increase in growth.

The protocol can be found at

Caffeine

yBR138cUV Exposure.png

This bar graph shows that compared to a BY4735 background, yBR138c makes yeast less sensitive to UV light exposure.

The protocol can be found at

UV Light Exposure

Cycloheximide effecting YBR138C

Cycloheximide 5.png

In this image we see that tests 2&3 are surviving and tests 1&4 are not doing as well under this stress. 1 is very low compared to 3 and this is kind of weird. The three Growth models are YBR138C not be stressed.


Effect of 3% DMSO on YBR138C

Effect of 3% DMSO on YBR138C.png

The graph above shows the effect of 3% DMSO on YBR138C. From the data represented the average doubling rate for the YBR138C knockout strain without DMSO was 570 minutes. When DMSO is added the average doubling time increased to 835 minutes. This shows that 3% DMSO did add stress to this knockout strain. The average doubling time of WT:BY4735 without DMSO was 514 minutes. The average doubling rate for WT:BY4735 with DMSO was 1529 minutes. If we compare the average doubling rate of WT:BY4735 with DMSO to YBR138C with DMSO we can see that without the YBR138C gene the yeast was able to grow more quickly under DMSO induced stress, so much so that it almost halves the doubling time. Given both controls it also appears that the YBR138C gene has very little effect on the growth of the yeast in optimal conditions.

Ethanol Tolerance in YBR138C

YBR138C ethonal.png

This graph shows the growth between YBR138C treated and untreated with ethanol. The rate of growth of the treated yeast is (answer). The rate of growth of the untreated yeast is (answer). This shows that the strands of YBR138C treated with ethanol had an increased rate of growth compared to the strands that weren't.

Prednisone Effects on YBR138C

YBR138C.png



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References

See Help:References on how to add references

  1. Huh WK, et al. (2003) Global analysis of protein localization in budding yeast. Nature 425(6959):686-91 SGD PMID 14562095
  2. Kucharczyk R, et al. (1999) Disruption of six novel yeast genes located on chromosome II reveals one gene essential for vegetative growth and two required for sporulation and conferring hypersensitivity to various chemicals. Yeast 15(10B):987-1000 SGD PMID 10407278
  3. 3.0 3.1 Ubersax JA, et al. (2003) Targets of the cyclin-dependent kinase Cdk1. Nature 425(6960):859-64 SGD PMID 14574415 Cite error: Invalid <ref> tag; name "S000074306" defined multiple times with different content
  4. submitted by Jeff Ubersax on 2004-01-21

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