- ... Wilms Tumor - G05.360.340.024.340.425 Genes, Regulator - G05.360.340.024.340.425.412 Genes, araC - G05.360.340.024.340.425.413 ...
- ... dramatic secondary structure remod- eling events directly affect gene expression and a circadian clock, respectively. Finally, this minireview dis- cusses how the ...
- ... Wilms Tumor G05.360.340.024.340.425 Genes, Regulator G05.360.340.024.340.425.412 Genes, araC G05.360.340.024.340.425.413 ...
- ... Wilms Tumor G05.360.340.024.340.425...........................................Genes, Regulator G05.360.340.024.340.425.412...........................................Genes, ...
- ... and the nuclear receptor RORA. It regulates CIRCADIAN CLOCKS via histone methylation at the PROMOTER REGIONS of the circadian genes and its repressive activity is also important for ...
- ... switchers control the expression of bacterial vir- ulence genes, [8] underlie the periodicity of a cyanobacterial circadian clock, [9] and regulate Cl − concentrations in human microglia. [ ...
- ... al., 2021) , regulating the expression of bacterial virulence genes (Kang et al., 2018) , and controlling the periodicity of the cyano- bacterial circadian clock (Chavan et al., 2021) . Despite their biological importance, ...
- ... genes encoding the separate CTDs likely recombined with genes encoding the NTDs of response regulators. Consistent with this possibility, the alignment coverage after ...
- A sequence‐based method for predicting extant fold switchers that undergo α‐helix ↔ β‐strand transitions... dian clock of S. elongatus . [6] Unlike most other circadian clocks, which are driven by transcription-translation oscillation, the cyanobacterial circadian clock is maintained through a periodic phosphorylation cycle, known ...
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