Rif1 regulates telomere length through conserved HEAT repeats

In budding yeast, Rif1 negatively regulates telomere length, but the mechanism of this regulation has remained elusive. Previous work identified several functional domains of Rif1, but none of these has been shown to mediate telomere length. To define Rif1 domains responsible for telomere regulation, we localized truncations of Rif1 to a single specific telomere and measured telomere length of that telomere compared to bulk telomeres. We found that a domain in the N-terminus containing HEAT repeats, Rif1_177–996, was sufficient for length regulation when tethered to the telomere. Charged residues in this region were previously proposed to mediate DNA binding. We found that mutation of these residues disrupted telomere length regulation even when Rif1 was tethered to the telomere. Mutation of other conserved residues in this region, which were not predicted to interact with DNA, also disrupted telomere length maintenance, while mutation of conserved residues distal to this region did not. Our data suggest that conserved amino acids in the region from 436 to 577 play a functional role in telomere length regulation, which is separate from their proposed DNA binding function. We propose that the Rif1 HEAT repeats region represents a protein-protein binding interface that mediates telomere length regulation.     

Molecular docking analysis of DNA ligase from Staphylococcus aureus with identical polysaccharides

Staphylococcus aureus has been recognized as an important human pathogen for more than 100 years. DNA ligase is the main protein responsible for the replication of S. aureus. DNA ligase was selected as successive target to control the replication mechanism. The antibacterial activity of polysaccharide is known. Therefore, it is of interest to study the activity of Polysaccharide analogues against DNA ligase in S. aureus using molecular docking analysis. We report ten analogues using scoring parameters with best two analogues as potential drug candidate for the combat of S. aureus infection.