化学
核酸
动力学
寡核苷酸
立体化学
膦酸盐
核糖核酸
核苷酸
DNA
受体-配体动力学
复式(建筑)
核酸类似物
碱基对
核酸热力学
离解(化学)
离解常数
核酸变性
有机化学
生物化学
受体
物理
基因
量子力学
作者
Tamilselvan Rajasekaran,Graeme C. Freestone,Rodrigo Galindo‐Murillo,Barbara Lugato,Hans Gaus,Michael T. Migawa,Eric E. Swayze,Thomas E. Cheatham,Punit P. Seth,Stephen Hanessian
标识
DOI:10.1021/acs.joc.2c02796
摘要
We recently described a chemical strategy to pre-organize a trinucleotide subunit in a conformation suitable for Watson–Crick base pairing for modulating the binding kinetics of single-stranded oligonucleotides (ONs) using bis-phosphonate esters bridging hydrocarbon tethers to provide 11- and 15-membered macrocyclic analogues. In this manuscript, we describe the synthesis of all eight P-stereoisomers of macrocyclic 12-, 13-, 14-, and 16-membered hydrocarbon-bridged nucleotide trimers, their incorporation into ONs, and biophysical characterization of the modified ONs. The size of the macrocyclic tether and configuration at phosphorus had profound effects on hybridization kinetics. ONs containing 12- and 13-membered rings exhibited faster on-rates (up to 5-fold) and off-rates (up to 161-fold). In contrast, ONs using the larger ring size macrocycles generally exhibited smaller changes in binding kinetics relative to unmodified DNA. Interestingly, several of the analogues retained significant binding affinity for RNA based on their dissociation constants, despite being modestly destabilizing in the thermal denaturation experiments, highlighting the potential utility of measuring dissociation constants versus duplex thermal stability when evaluating novel nucleic acid analogues. Overall, our results provide additional insights into the ability of backbone-constrained macrocyclic nucleic acid analogues to modulate hybridization kinetics of modified ONs with RNA.
科研通智能强力驱动
Strongly Powered by AbleSci AI