Structure-activity relationship study of NPP1 inhibitors based on uracil-N1-(methoxy)ethyl-β-phosphate scaffold

Keyphrases

• Ethyl 100%
• Phosphate 100%
• Nucleotide Pyrophosphatase 100%
• Methoxy 100%
• Uracil 100%
• Structure-activity Relationship Studies 100%
• Human Chondrocytes 33%
• P2Y2 22%
• Uracil nucleotides 22%
• Uridine 11%
• Type 2 Diabetes Mellitus (T2DM) 11%
• Overexpression 11%
• No Toxicity 11%
• Drug Development 11%
• Structure-activity Relationship 11%
• Ribose 11%
• Triphosphate 11%
• Triphosphate Analogues 11%
• Methylene 11%
• Osteoarthritis 11%
• NTPDase1 11%
• Calcium Pyrophosphate Deposition Disease 11%
• Inhibitory Activity 11%
• Inhibitory Selectivity 11%
• Inhibition Rate 11%
• Binding Residues 11%
• Inhibitory Effect 11%
• Potential Drugs 11%
• Drug Candidates 11%
• Salt Bridge 11%
• Nucleobases 11%
• Lead Structure 11%
• Alkaline Phosphatase Activity 11%
• Uridine Diphosphate 11%
• Calcific Aortic Valve Disease 11%
• Valve Type 11%
• Molecular Docking 11%
• Uridine Monophosphate 11%
• Hydrogen Bonds (H-bonds) 11%
• Bonding Bridge 11%

Biochemistry, Genetics and Molecular Biology

• Pyrophosphatase 100%
• Uracil 100%
• Structure Activity Relation 100%
• Inorganic Pyrophosphatase 100%
• Chondrocyte 33%
• Ribose 11%
• Uridine 11%
• Binding Site 11%
• Docking (Molecular) 11%
• Calcium Pyrophosphate 11%
• Uridine Monophosphate 11%
• Uridine Diphosphate 11%
• Alkaline Phosphatase 11%
• Nucleobase 11%

Pharmacology, Toxicology and Pharmaceutical Science

• Structure Activity Relationship 100%
• Nucleotide Pyrophosphatase 100%
• Uracil 100%
• Disease 33%
• Pyrimidine Nucleotide 22%
• Drug Development 11%
• Non Insulin Dependent Diabetes Mellitus 11%
• Binding Site 11%
• Uridine 11%
• Nucleic Acid Base 11%
• Carbene 11%
• Aortic Valve Disease 11%
• Uridine Phosphate 11%
• Sodium Chloride 11%
• Alkaline Phosphatase 11%
• Ribose 11%
• Uridine Diphosphate 11%
• Calcium Pyrophosphate 11%