Background
Quercetin is a polyphenol of great interest given its antioxidant activity and involvement in the immune response. Although quercetin has been well studied at the molecular level as a gene regulator and an activator of specific cellular pathways, not much attention has been given to its mechanism of action at the genome-wide level. The present study aims to characterize quercetin’s interaction with cellular DNA and to show its subsequent effect on downstream transcription.
Results
Two massive parallel DNA-sequencing technologies were used: Chem-seq and RNA-seq. We demonstrate that upon binding to DNA or genome-associated proteins, quercetin acts as a cis-regulatory transcription factor for the expression of genes that are involved in the cell cycle, differentiation and development.
Conclusions
Such findings could provide new and important insights into the mechanisms by which the dietary polyphenol quercetin influences cellular functions.
Electronic supplementary material
The online version of this article (10.1186/s12864-019-5966-9) contains supplementary material, which is available to authorized users.
Analysis of V3 and C4 sequences of HIV-1 reveals correlated mutations at gp120 positions 322 and 440, and a very strong preference for a positively charged residue at position 440 when position 322 is negatively charged. This observation suggests that these two residues are close to each other and interact electrostatically in R5 viruses. This interaction was used to model V3 in the context of gp120 using NMR data for the V3 loop and the crystal structure of the gp120-core. The interaction between residues 322 and 440 may serve as part of the molecular switch for HIV-1 phenotype conversion.
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