ChemInform Abstract: 3‐ACYL‐1,3,2‐OXAZAPHOSPHOLANE UND PHOSPHORINANE. SYNTH. UND EINIGE EIGENSCHAFTEN

Mizrakh, L. I.; Polonskaya, L. Yu.; Kozlova, L. N.; Babushkina, T. A.; Bryantsev, B. I.

doi:10.1002/chin.197545357

Cited by 2 publications

(8 citation statements)

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“…For example, cyclo-deesterification of the amidated benzyl thiophosphate protecting group may follow path a (Figure ) with the simultaneous formation of an oxazoline derivative. It has been reported that heating a 2-acetamidoethyl phosphite triester at 140−145 °C under vacuum leads to formation of 2-methyl-2-oxazoline . It could therefore be argued that a cyclo-deesterification reaction could also occur when the leaving group is a thiophosphate instead of an H -phosphonate diester derivative.…”

Section: Resultsmentioning

confidence: 99%

Deoxyribonucleoside Cyclic N-Acylphosphoramidites as a New Class of Monomers for the Stereocontrolled Synthesis of Oligothymidylyl- and Oligodeoxycytidylyl- Phosphorothioates

et al. 2000

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A simple and straightforward synthesis of the pyrimidine 2′-deoxyribonucleoside cyclic Nacylphosphoramidites R P -1 and S P -1 is described. Specifically, (()-2-amino-1-phenylethanol 2 was chemoselectively N-acylated to 4 by treatment with ethyl fluoroacetate 3 followed by reaction with hexaethylphosphorus triamide to afford the cyclic N-acylphosphoramidite 5 as a mixture of diastereomeric rotamers (5a and 5b). Condensation of N 4 -benzoyl-5′-O-(4,4′-dimethoxytrityl)-2′-deoxycytidine 8 with 5 in the presence of 1Htetrazole gave, after silica gel chromatography, pure R P -1 and S P -1. 31 P NMR studies indicated that when R P -1 or S P -1 is reacted with 3′-O-acetylthymidine and N,N,N′,N′-tetramethylguanidine in CD 3 CN, the dinucleoside phosphotriester S P -9 or R P -9 is formed in near quantitative yield with total P-stereospecificity (δ P 144.2 or 143.9 ppm, respectively). Sulfurization of S P -9 or R P -9 generated the P-stereodefined dinucleoside phosphorothioate R P -11 or S P -11 (δ P 71.0 or 71.2 ppm, respectively). The 2′-deoxycytidine cyclic N-acylphosphoramidite derivatives R P -1 and S P -1 were subsequently applied to the solid-phase synthesis of [R P ,R P ]-and [S P ,S P ]-trideoxycytidilyl diphosphorothioate d(C PS C PS C), and [R P ,S P ,R P ]-tetradeoxycytidilyl triphosphorothioate d(C PS C PS C PS C). Following deprotection, reversed-phase (RP) HPLC analysis of these oligonucleotide analogues showed a single peak for each oligomer. By comparison, RP-HPLC analysis of purified P-diastereomeric d(C PS C PS C) and d(C PS C PS C PS C) prepared from standard 2-cyanoethyl deoxyribonucleoside phosphoramidites exhibited 4 and 8 peaks, respectively, each peak corresponding to a specific P-diastereomer (see Figure 3A). The thymidine cyclic N-acylphosphoramidite derivatives R P -14 and S P -14 were also prepared, purified, and used successfully in the solid-phase synthesis of [R P ] 11 -d[(T PS ) 11 T]. Thus, the application of deoxyribonucleoside cyclic N-acyl phosphoramidites to P-stereocontrolled synthesis of oligodeoxyribonucleoside phosphorothioates may offer a compelling alternative to the methods currently used for such syntheses.

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Section: Resultsmentioning

confidence: 99%

Deoxyribonucleoside Cyclic N-Acylphosphoramidites as a New Class of Monomers for the Stereocontrolled Synthesis of Oligothymidylyl- and Oligodeoxycytidylyl- Phosphorothioates

et al. 2000

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“…Phosphorylation of alkanols and phenols with ATPA is a general process used to prepare esters (or amido esters) of phosphorous acid and other acids of trivalent phosphorus. Initially, this reaction has been used for the synthesis of simple derivatives of the above-mentioned classes of compounds and has been recognized as being not only convenient but also practically feasible 101 for the preparation, in particular, of sterically hindered phenols. , Later, the phosphamide method has been widely used to synthesize various functionalized systems, whose molecules contain a trivalent phosphorus atom and other functional groups, e.g., phosphorylated amino − and amido − alcohols, choline, , partially acetalized triols, − quinine, fagaronin, biotin, − borneol, structural analogues of porphyrins, and halogenated alcohols. − …”

Section: A Phosphorylation Of Alkanols Phenols and Their Functional D...mentioning

confidence: 99%

“…Considerable attention has been paid to the transamidation of phosphorus diamides in which one nitrogen atom carries an acyl group. These phosphamides were shown to exhibit low reactivity; the exchange involves the nonfunctionalized amide group, for example, see Scheme 91 …”

Section: Applications Of the Atpa Transamidation For The Purposes Of ...mentioning

confidence: 99%

“…Initially, this reaction has been used for the synthesis of simple derivatives of the above-mentioned classes of compounds and has been recognized as being not only convenient but also practically feasible 101 for the preparation, in particular, of sterically hindered phenols. 162,163 Later, the phosphamide method has been widely used to synthesize various functionalized systems, whose molecules contain a trivalent phosphorus atom and other functional groups, e.g., phosphorylated amino [163][164][165][166][167][168] and amido [169][170][171][172][173][174] alcohols, choline, 175,176 partially acetalizedtriols, [177][178][179][180][181] quinine, 182 fagaronin, 183 biotin, [184][185][186] borneol, 164 structural analogues of porphyrins, 187 and halogenated alcohols. [188][189][190] Phosphorylation of functionalized alcohols can be accompanied by additional reactions; this extends the potentialities of classical synthesis and opens up simple routes to interesting heterocycles, for example, Scheme 27.…”

Section: A Phosphorylation Of Alkanols Phenols and Their Functional D...mentioning

confidence: 99%

“…In recent years, systematic studies have been on the use of ATPA in the synthesis of sphingophospholipids, 285 which present great interest biologically. 312 Several research groups have shown that these compounds can be efficiently synthesized by phosphorylation of D-erythro-2-aminoalkane-1,3-diols with protected amino and secondary hydroxy groups by β-cyanoethyl-N,N-bis(diisopropyl)phosphorus diamide 170,[313][314][315][316] or bis(β-cyanoethyl) N,N-diisopropylphosphorus amide (31). 315,317,318 Oxidation of the resulting products and removal of the protecting groups gives rise to terminal phospholipids belonging to the class of primary phosphates.…”

Section: A Synthesis Of Phospholipidsmentioning

confidence: 99%

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Amides of Trivalent Phosphorus Acids as Phosphorylating Reagents for Proton-Donating Nucleophiles

2000

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ChemInform Abstract: 3‐ACYL‐1,3,2‐OXAZAPHOSPHOLANE UND PHOSPHORINANE. SYNTH. UND EINIGE EIGENSCHAFTEN

Abstract: Das Triamid (IV) reagiert mit den N‐Hydroxyalkylacetamiden (III) und (V) zu dem Oxazaphospholan‐ (II) bzw. Oxazaphosphorinanderivat (VI).

Cited by 2 publications

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Deoxyribonucleoside Cyclic N-Acylphosphoramidites as a New Class of Monomers for the Stereocontrolled Synthesis of Oligothymidylyl- and Oligodeoxycytidylyl- Phosphorothioates

Deoxyribonucleoside Cyclic N-Acylphosphoramidites as a New Class of Monomers for the Stereocontrolled Synthesis of Oligothymidylyl- and Oligodeoxycytidylyl- Phosphorothioates

Amides of Trivalent Phosphorus Acids as Phosphorylating Reagents for Proton-Donating Nucleophiles

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