New synthetic protocol for the preparation of nucleoside 5'-(N-aryl)phosphoramidate monoesters 4 was developed. It consisted of a condensation of the corresponding nucleoside 5'-H-phosphonates with aromatic- or heteroaromatic amines promoted by diphenyl phosphorochloridate, followed by oxidation of the produced H-phosphonamidates with iodine/water. 5'-(N-Aryl)phosphoramidate monoesters derived from 3'-azido-3'-deoxythymidine (AZT) or 2',3'-dideoxyuridine (ddU) nucleosides and various aromatic and heteroaromatic amines were evaluated as potential anti-HIV drugs. It was found that these compounds act most likely as pronucleotides and that some of them have therapeutic indices superior to those of the reference AZT.
The RNA components of small nuclear ribonucleoproteins (U snRNPs) possess a characteristic 59-terminal 2,2,7-trimethyl-guanosine CAP structure (m 3 G-CAP). This cap is an important component of the nuclear localization signal of U snRNPs. Here we report synthesis of four m 3 G-CAP constructs and the effective attachment of these onto oligonucleotides (ONs) using Cu(I) [3 + 2] cycloaddition (''click chemistry''). The four constructs (1-4, Fig. 1) are equipped with a handle that in principle allows for universal conjugation to any cargo and differ in their complexity starting from m 3 GpppA (linker) to m 3 GpppA (OMe) U (OMe) A (linker) that resembles the native m 3 G-CAP followed by the 29-O-methylated sequence AUA. The four m 3 G-CAP containing constructs are equipped with an azide linker and by taking advantage of initial attachment of a novel activated triple bond donor p-aminomethyltoluic acid (PATA) to ONs on solid support we were able to synthesize novel bioconjugates equipped with different constructs carrying the m 3 G-CAP Nuclear Localisation Signal (NLS) for the investigation of nuclear delivery.
Mechanistic and stereochemical aspects of the reaction of boranephosphonate diesters with amines promoted by iodine were investigated. This is a complex, multistep reaction that ultimately produces the corresponding phosphoramidate diesters via a formal replacement of the borane group by an amine moiety. We found by a stereochemical correlation analysis that, contrary to a literature report, the whole transformation proceeded with total inversion of the configuration at the phosphorus center. Our study also showed that instead of the postulated nucleophilic substitution by iodide at the phosphorus center of the initially formed intermediate, the corresponding iodoboranephosphonate, the crucial step of the reaction involved intermediacy of H-phosphonate derivatives that reacted with iodine to afford ultimately phosphoramidate diesters. The reaction of the iodoboranephosphonate with the amine to produce an aminoboranephosphonate diester that rapidly dissociated into the corresponding H-phosphonate and the borane parts was apparently instrumental to the formation of an H-phosphonate diester intermediate.
Biotin is an important molecule for modern biological studies including, e.g., cellular transport. Its exclusive affinity to fluorescent streptavidin/avidin proteins allows ready and specific detection. As a consequence methods for the attachment of biotin to various biological targets are of high importance, especially when they are very selective and can also proceed in water. One useful method is Hüisgen dipolar [3+2]-cycloaddition, commonly referred to as “click chemistry”. As we reported recently, the activated triple bond donor p-(N-propynoylamino)toluic acid (PATA) gives excellent results when used for conjugations at submicromolar concentrations. Thus, we have designed and synthesized two biotin linkers, with different lengths equipped with this activated triple bond donor and we proceeded with biotinylation of oligonucleotides and C-myc peptide both in solution and on solid support with excellent yields of conversion.
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