AI Article Synopsis
- Researchers synthesized a range of fluorinated phosphonates and ketosephosphonates based on an L-rhamnose structure to explore their potential as inhibitors of the enzyme Cps2L, which is important for L-rhamnose biosynthesis in Streptococcus pneumoniae.
- The study utilized WaterLOGSY NMR to investigate how these compounds interact with the enzyme and other known sugar substrates, measuring their binding effectiveness.
- Findings revealed new details about how enzymes in the prokaryotic L-rhamnose biosynthetic pathway interact with various inhibitors, particularly highlighting the strong inhibition mechanism of L-rhamnose 1C-phosphonate.
Article Abstract
We report the synthesis of a series of phosphonates and ketosephosphonates possessing an L-rhamnose scaffold with varying degrees of fluorination. These compounds were evaluated as potential inhibitors of α-D-glucose 1-phosphate thymidylyltransferase (Cps2L), the first enzyme in Streptococcus pneumoniae L-rhamnose biosynthesis, and a novel antibiotic target. Enzyme-substrate and enzyme-inhibitor binding experiments were performed using water-ligand observed binding via gradient spectroscopy (WaterLOGSY) NMR for known sugar nucleotide substrates and selected phosphonate analogues. IC50 values were measured and Ki values were calculated for inhibitors. New insights were gained into the binding promiscuity of enzymes within the prokaryotic L-rhamnose biosynthetic pathway (Cps2L, RmlB-D) and into the mechanism of inhibition for the most potent inhibitor in the series, L-rhamnose 1C-phosphonate.
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