Rv1301 \YrdC/Sua5 family protein, required for threonylcarbamoyladenosine (t(6)A) formation in tRNA\\\""
|Product||Feature Type||Start||End||Strand||Length||AA Length||is TF|
|Rv1301||\YrdC/Sua5 family protein, required for threonylcarbamoyladenosine (t(6)A) formation in tRNA\\\...||CDS||1457558||1458211||+||654||217||FALSE|
Rv1301 (\YrdC/Sua5 family protein, required for threonylcarbamoyladenosine (t(6)A) formation in tRNA\\\"") is predicted to be co-regulated in modules bicluster_0105 with residual 0.56 and bicluster_0142 with residual 0.59.
This regulation is possibly mediated by two de-novo identified cis-regulatory motifs in each module with e-values , 3,200.00 and 5,800.00 for bicluster_0105 and 420.00 and 7,300.00 for bicluster_0142 respectively.
These modules are enriched for following go terms: DNA topological change, glutamate metabolic process, dicarboxylic acid biosynthetic process, DNA conformation change, DNA topoisomerase activity.
This gene is found to be for growth on cholesterol.
|Product (LegacyBRC)||Product (RefSeq)|
|Uncharacterized protein Rv1301_MT1340|
|BioCyc Gene Page||Cellular Overview Map|
|t-test p-value||Cholesterol/Glycerol Ratio|
How essentiality calculations were done?
The relative representation of each mutant was determined by calculating the fold change (sequence reads/insertion in cholesterol divided by sequence reads/insertion in glycerol) for each gene. Statistical significance was determined by t-test. Each insertion site in each replicate sample was treated as a separate data point. The hyperbola used for defining genes specifically required for growth in cholesterol was defined by the formula, y = 3.8/x+0.7. Genes above this line are annotated as required for growth on cholesterol.
reports the log2 abundance fold change of each TFI strain, relative to no induction, in absence or presence of drug, averaged across experimental replicates. Also reported are the accompanying z-scores and two-sided t-test p-values for each TFI strain under each condition. Please refer to Ma et al., 2020, Nature Microbiology for more information.