YGL138C

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Systematic name YGL138C
Gene name
Aliases
Feature type ORF, Uncharacterized
Coordinates Chr VII:249531..248494
Primary SGDID S000003106


Description of YGL138C: Putative protein of unknown function; has no significant sequence similarity to any known protein[1]




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Community Commentary

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

Growth Curve

YGL138C-water.png

In a BY4735 background, knocking out YGL138C does not seem to have much effect on the strain's growth rate. In this assay, the BY4735 strain's doubling time was 162 minutes, while the YGL138C knock-out strain's doubling time was 140 minutes. (These doubling times are the means of three experiments.)

Hydroxychloroquine

YGL138C-BY4735.png

HCQ refers to hydroxychloroquine

Under normal conditions, the BY4735 doubling time is 144 minutes, while that of YGL138C is 743 minutes. Thus, YGL138C doubles much slower than the wild strain. When grown in an environment with hydroxychloroquine, YGL138C doubled in 224 minutes, while BY4735 doubled in 276 minutes. Interestingly, YGL138C doubling time decreased dramatically, which means that it grew faster in the presence of hydroxychloroquine. The lag phase of YGL138C also decreased meaning that rapid growth started earlier than that of the YGL138C under normal conditions. The BY4735 strain was inhibited by hydroxychloroquine. (These doubling times and curves are the means of three experiments.)

Phenylmethylsulphonyl Fluoride

YGL138C vs Wild type.jpg

The YGL138C yeast gene strain was determined to be barely different in growth to the BY4735 strain. The YGL138C strain had a doubling time of 373 minutes while the BY4735 strain has a doubling time of 382 minutes. This means that the modification had little to no effect on the way that the cell interacts with PMSF. The doubling time of the BY4735 with ethanol had a doubling time of 442 minutes, while the YGL138C with ethanol had a doubling time of 351 minutes.

=Sodium Hydroxide

YGL vs Wt.jpg

The YGL138C yeast strain had a significant difference from the BY4735 that were both exposed to NaOH. The YGL138C strain had a doubling time of 363 minutes while the BY4735 strain had a doubling time of 545 minutes. That means that the NaOH affected the growth of the YGL138C significantly. The doubling time for BY4735 is 809 minutes and for YGL138C is 785 minutes.


Salt Concentration (NaCl)

NaCl-BY4735vYGL138C-Graph.JPG


0mM NaCl conc. BY4735 strain's doubling time: 169 minutes

0mM NaCl conc. YGL138C strain's doubling time: 139 minutes

750mM NaCl conc. BY4735 strain's doubling time: 294 minutes

750mM NaCl conc. YGL138C strain's doubling time: 205 minutes


The graph above shows the growth rate for the previously listed strains and the relative level of NaCl concentration. Knocking out the gene positively influenced the growth rate. Comparing the YGL138C doubling times in 0mM and 750mM NaCl, there is a moderate effect on the growth rate. This effect negatively impacts the knockout strain's (YGL138C) growth rate.


Caffeine Group 1

gnevswild6.jpg

When adding caffeine to the YGL138C strain, the effect it had on the growth rate was significant. The doubling times are as follows:

Doubling time of YGL138C with caffeine: 309 minutes

Doubling time of YGL138C without caffeine: 140 minutes

Doubling time of BY4735 with caffeine: 138 minutes

Doubling time of BY4735 without caffeine: 187 minutes

When adding caffeine to this strain knockout, the growth rate slowed down a great deal.

Competative Co-culture

YGL138CCompetetiveCoCulture.jpg

These are the results of a competitive co-culture protocol. The knockout strain was grown in a culture to test fitness against a green, fluorescent wild-type strain. The percentage of analyzed cells in the culture measured was those displaying green fluorescence. In theory, this should mean if a knockout has reduced the fitness of a strain of yeast, the fluorescent wild-type strain would have a higher percentage than the knockout strain. If the knockout does not decrease fitness, they would be roughly equal. This may not be so in results. Sources of error may include contamination and human error.

The results here are not expected in theory. The YGL138C knockout strain had a significant disadvantage and the fluorescent wild-type strain dominated the given result. Test 1 must have been contaminated with a faster growing organism than yeast that did not display a fluorescent behavior like the wild-type fluorescent yeast used. However, Strain 2 appears to follow an expected result and suggests the knockout strain had a significant disadvantage imposed to its fitness, given the wild-type strain outgrew it.

Ammonium Sulfate

TNKO6.jpg

YGL138C gene shows an interesting result. While the wild strain from 5g/ml of ammonium sulfate to none shows a 17.8% slower rate, it shows a 35.5% slower rate. For further analysis 0.5g/ml to no ammonium sulfate was compared too. Wild showed 1% slower rate and YGL138C showed 38% slowed rate. Based on the differences of these two treatments in the wild to the YGL138C KO strain it could be said that there was experimental error. The differences in percent are 16.8% in the wild and roughly 3% in the KO strain. The doubling time of the negative control is like the wild as well. It could be that errors in volume transfers occurred causing increased growth in the other treatments. It could also be that this strain with the knocked out YGL138C gene is in fact more sensitive to nitrogen starvation.

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UV Light

Knock-out Strain 6

Results:

  • Experiment 1:0sec=437 colonies, 600sec=81 colonies.
  • Experiment 2:0sec=135 colonies, 600sec=28 colonies.

Interpretation: The two 0sec plates are on top and the 600sec plates are on the bottom. The 0sec yeast plate from experiment 2 had a lot of contamination along with the yeast while the 600sec plate from experiment 2 had very little. This yeast strain was about 80% for both plates which is more significant than some of the other strains however I'm not sure I'd say this is significant. It's possible that the number of yeast colonies was miscounted on the 0sec experiment 2 plate because of how small many of colonies are and how much contamination there is. Though it may be possible the gene played a role in UV resistance, it's hard to say with only one run of the experiment being good.



Calcofluor White

YGL138 CW

From this data we can determine that there was moderate growth inhibition on this strain of yeast. The modified yeast had a doubling rate that was about twenty minutes slower than the wild type on average, and when compared to the effect on other yeast strains this is a moderate effect on the inhibition of growth.


Heat Shock

YGL138C yeast strain in pitri dishes.

The yeast strain YGL138C was impacted significantly by the heat shocking of the thermal cycler. As seen in the image, the controlled plate grew a lot of small DNA colonies all throughout the majority of pitri dish. It looks like a very thick sheet of cells. When compared to the two trial heat shocking plates, there are a lot less cells being grown. The trial cells are slightly larger than those of the controlled, but not by much. The quantity of the cells is much smaller, and the quality (size) of the cells is not that much bigger than what they're being compared to. This gene was heat sensitive, but not as much as the YLR426W yeast strain.


Caffeine Group 2

YGL138C graph.png

Doubling Time at 0.25 concentration

YGL138C Td = (217-1) x ln(2)/ln(0.2/0.1) = 216 minutes; Wild Type Td = (146-66) x ln(2)/ln(.6/.2) = 88 minutes

Ethanol Sensitivity

YGL138C Ethanol.png

The YGL138C yeast strain was determined to be barely different in growth to the BY4735 strain. The YGL138C strain had a doubling time of 191 minutes while the BY4735 strain has a doubling time of 182 minutes. This means that the modification had little to no effect on the way that the cell interacts with ethanol. The doubling time of the BY4735 with ethanol had a doubling time of 218 minutes, while the YGL138C with ethanol had a doubling time of 212 minutes.

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Hyrdoxyurea

YGL.png

The YGL138X strain had an average doubling time that was very similar to the growth rate of the BY4735 strain. The stressed YGL138C strain had a doubling time of 286 minutes, while the average doubling time of the stressed BY4735 strain had an average doubling time of 278 minutes. What is similar in both unstressed samples is what is interesting, the unstressed YGL138C strain had an average doubling time of 167 minutes, while the BY4735 unstressed strain had an average doubling time of 182 minutes. This means the stressor had little effect on the rate of growth of the strain. [2]

References

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  1. Victoria Escribano M and Mazon MJ (2000) Disruption of six novel ORFs from Saccharomyces cerevisiae chromosome VII and phenotypic analysis of the deletants. Yeast 16(7):621-30 SGD PMID 10806424

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