YNL018C

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Systematic name YNL018C
Gene name
Aliases
Feature type ORF, Uncharacterized
Coordinates Chr XIV:601774..599936
Primary SGDID S000004963


Description of YNL018C: Putative protein of unknown function[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

YNL018C-water.png

In a BY4735 background, knocking out YNL018C seems to have a modest effect on growth rate, if any. In this assay, the BY4735 strain's doubling time was 162 minutes, while the YNL018C knock-out strain's doubling time was 129 minutes. (These doubling times are the means of three experiments.)

Hydroxychloroquine

YNL018C.png

HCQ refers to hydroxychloroquine

Under normal conditions, the BY4753 doubling time is 144 minutes, while that of YNL018C is 145 minutes. This proves that both of these strains grow at a similar rate. When grown in an environment with hydroxychloroquine, YNL018C doubled in 211 minutes, while BY4753 doubled in 276 minutes. Both strains are inhibited by hydroxychloroquine, but BY4753 growth is staggered more. In hydroxychloroquine, BY4753 has a longer lag phase than that of YNL018C. (These doubling times and curves are the means of three experiments.)



Salt Concentration (NaCl)

NaCl-BY4735vYLN018C-Graph.JPG


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

0mM NaCl conc. YNL018C strain's doubling time: 128 minutes

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

750mM NaCl conc. YNL018C strain's doubling time: 195 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 influences the growth rate. Comparing the YNL018C doubling times between 0mM and 750mM NaCl, there is a moderate effect on the growth rate. This effect negatively influences the knockout strain's (YNL018C) growth rate.


Caffeine Group 1

gene4vswildgene.jpg

Adding caffeine to the YNL018C strain had a detrimental effect on the yeast's growth rate. The doubling times are as followed:

Doubling time of YNL018C with caffeine: 131 minutes

Doubling time of YNL018C without caffeine: 295 minutes

Doubling time of BY4735 with caffeine: -2649 minutes

Doubling time of BY4735 without caffeine: 187 minutes

Caffeine has a negative effect on this strain and stunts its growth rate.


Competative Co-culture

YNL018CCompetetiveCoCulture.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. Test 1 appears to have been contaminated with an organism that grows faster than yeast and does not display a fluorescent trait like the wild-type. Test 2 yields an expected result that suggests the knockout of YNL018C does not reduce fitness in a fair, competitive co-culture.

Ammonium Sulfate

TNKO4.jpg

YNL018C 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 40.8% slower rate. For further analysis 0.5g/ml to no ammonium sulfate was compared too. Wild showed 1% slower rate and YNL018C showed 31.4% slowed rate. Based on the differences of these two treatments in the wild to the YNL018C KO strain it could be said that there was experimental error. The differences in percent are 16.8% in the wild and roughly 8.6% in the KO strain. The doubling time of the negative control is like the wild as well. These two points could indicate some form of experimental error. It could also be that this strain with the knocked out YNL018C gene is in fact more sensitive to nitrogen starvation

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References

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  1. SGD (2006) No information available SGD PMID

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