Asymmetric Electrophilic Reactions in Phosphorus Chemistry

Kolodiazhna, Anastasy O.; Kolodiazhnyi, Oleg I.

doi:10.3390/sym12010108

Cited by 14 publications

(8 citation statements)

References 176 publications

(655 reference statements)

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“…Organophosphorus compounds, particularly those with a phosphonate or phosphonic acid group, have considerable potential for a variety of applications in industrial, agricultural, and medicinal chemistry. 1 2 3 4 5 In a recent paper, we described the synthesis of β-functionalized [(allyloxy)methyl]phosphonates 1 (Scheme 1 ), and studied their reactivity towards various nucleophiles such as amines or thiols to prepare linear original phosphonate compounds. 6…”

Section: Table 1 Optimization Of the Reaction Condition...mentioning

confidence: 99%

Exploring the Reactivity of Substituted [(Allyloxy)methyl]phosphonates in Cycloaddition and Coupling Reactions

Blot,

M’rabet,

Jmai

et al. 2024

Synthesis

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This paper describes the versatility of substituted [(allyloxy)methyl]phosphonates to open the way to the synthesis of original phosphonated molecules with heterocyclic architectures. In 1,3-dipolar cycloaddition reactions with nitrile oxides, nitrile imines, and nitrones, these [(allyloxy)methyl]phosphonates react as dipolarophiles to give, regioselectively, the corresponding isoxazolines, pyrazolines, and isoxazolidines. Transition-metal-catalyzed reactions, including inter- or intramolecular Heck coupling, provided access to cinnamyl- and indenyl-linked moieties and phosphonated benzo-fused oxacycles, respectively. Additionally, ring-closing metathesis reactions enabled the synthesis of 2,5-dihydrofurans with the phosphonate group at the anomeric position. In this work, 51 novel phosphorylated heterocyclic compounds, which may find significance in the pharmaceutical and agrochemical fields, were prepared.

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Section: Table 1 Optimization Of the Reaction Condition...mentioning

confidence: 99%

Exploring the Reactivity of Substituted [(Allyloxy)methyl]phosphonates in Cycloaddition and Coupling Reactions

Blot,

M’rabet,

Jmai

et al. 2024

Synthesis

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“…The absolute configuration of the newly obtained enantiomerically enriched monoacetates was determined as follows: phosphine 14 (Table 1, entry 4) was oxidized with air to give phosphine oxide (-)-(R)-5, whose absolute configuration and optical rotation are known from our previous work [8]. Since oxidation with air proceeds with the retention of the configuration at phosphorus [15], (S) configuration was ascribed to (-)-phosphine 14 obtained. In turn, the reaction of 14 with elemental sulfur, proceeding also with retention of configuration at phosphorus [15], gave phosphine sulfide 24.…”

Section: Determination Of the Absolute Configuration Of Monoacetates 14 And 24mentioning

confidence: 99%

“…Since oxidation with air proceeds with the retention of the configuration at phosphorus [15], (S) configuration was ascribed to (-)-phosphine 14 obtained. In turn, the reaction of 14 with elemental sulfur, proceeding also with retention of configuration at phosphorus [15], gave phosphine sulfide 24. Hence, the absolute configuration of the latter is (+)-(R) (Scheme 7), that is, the same as the one obtained in the enzymatic desymmetrisation.…”

Section: Determination Of the Absolute Configuration Of Monoacetates 14 And 24mentioning

confidence: 99%

Enzymatic Desymmetrisation of Prochiral Phosphines and Phosphine P-Sulfides as a Route to P-Chiral Catalysts

2022

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The enzyme-catalyzed monoacetylation of prochiral bis (2-hydroxymethylphenyl)methylphosphine and bis (2-hydroxymethylphenyl)phenylphosphine and their P-sulfides gave, in one single step, as a result of desymmetrisation, the corresponding monoacetates in moderate yields and with an enantiomeric excess of 16 to 98%, depending on the substrate structure and enzyme applied. The absolute configurations of the selected products were determined by a chemical correlation. This led to the conclusion that, in the case of phosphines, phosphine oxides and phosphine sulfides enzymes preferentially produce compounds of the same spatial arrangement. The new compounds obtained will be transformed into chiral catalysts/ligands.

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“…Consequently, it cannot be registered in aqueous solutions because of the insignificant lifetime under these conditions. However, metaphosphate can be detected in highly polar and weakly nucleophilic nonaqueous media [46][47][48][49][50]. In addition, the metaphosphate anion PO 3 − exists in a stable form in the gas phase and has been recorded by various physical methods.…”

Section: Phosphagensmentioning

confidence: 99%

Phosphorus Compounds of Natural Origin: Prebiotic, Stereochemistry, Application

Kolodiazhnyi

2021

Symmetry

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Organophosphorus compounds play a vital role as nucleic acids, nucleotide coenzymes, metabolic intermediates and are involved in many biochemical processes. They are part of DNA, RNA, ATP and a number of important biological elements of living organisms. Synthetic compounds of this class have found practical application as agrochemicals, pharmaceuticals, bioregulators, and others. In recent years, a large number of phosphorus compounds containing P-O, P-N, P-C bonds have been isolated from natural sources. Many of them have shown interesting biological properties and have become the objects of intensive scientific research. Most of these compounds contain asymmetric centers, the absolute configurations of which have a significant effect on the biological properties of the products of their transformations. This area of research on natural phosphorus compounds is still little-studied, that prompted us to analyze and discuss it in our review. Moreover natural organophosphorus compounds represent interesting models for the development of new biologically active compounds, and a number of promising drugs and agrochemicals have already been obtained on their basis. The review also discusses the history of the development of ideas about the role of organophosphorus compounds and stereochemistry in the origin of life on Earth, starting from the prebiotic period, that allows us in a new way to consider this most important problem of fundamental science.

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Asymmetric Electrophilic Reactions in Phosphorus Chemistry

Cited by 14 publications

References 176 publications

Exploring the Reactivity of Substituted [(Allyloxy)methyl]phosphonates in Cycloaddition and Coupling Reactions

Exploring the Reactivity of Substituted [(Allyloxy)methyl]phosphonates in Cycloaddition and Coupling Reactions

Enzymatic Desymmetrisation of Prochiral Phosphines and Phosphine P-Sulfides as a Route to P-Chiral Catalysts

Phosphorus Compounds of Natural Origin: Prebiotic, Stereochemistry, Application

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