133574-79-5Relevant academic research and scientific papers
Enantiodivergent Formation of C-P Bonds: Synthesis of P-Chiral Phosphines and Methylphosphonate Oligonucleotides
Baran, Phil S.,Eastgate, Martin D.,Knouse, Kyle W.,Padial, Natalia M.,Rivas-Bascón, Nazaret,Schmidt, Michael A.,Vantourout, Julien C.,Xu, Dongmin,Zheng, Bin
, (2020/03/30)
Phosphorus Incorporation (PI, abbreviated Π) reagents for the modular, scalable, and stereospecific synthesis of chiral phosphines and methylphosphonate nucleotides are reported. Synthesized from trans-limonene oxide, this reagent class displays an unexpected reactivity profile and enables access to chemical space distinct from that of the Phosphorus-Sulfur Incorporation reagents previously disclosed. Here, the adaptable phosphorus(V) scaffold enables sequential addition of carbon nucleophiles to produce a variety of enantiopure C-P building blocks. Addition of three carbon nucleophiles to Π, followed by stereospecific reduction, affords useful P-chiral phosphines; introduction instead of a single methyl group reveals the first stereospecific synthesis of methylphosphonate oligonucleotide precursors. While both Π enantiomers are available, only one isomer is required - the order of nucleophile addition controls the absolute stereochemistry of the final product through a unique enantiodivergent design.
Phosphoramidites of (Rp) and (Sp) - Configurated adenosine methylphosphonate dimers
Schweitzer,Samstag,Engels
, p. 817 - 820 (2007/10/02)
The synthesis of adenosine methylphosphonate dimers, the separation of the diastereomers and the conversion into phosphoramidites is presented. These dimer building blocks were tested in the solid phase DNA synthesis of the hairpin decanucleotide 5'-CGCAA
