Phosphine aldehydes protected

Synthesis of phosphonium dimers protected phosphine aldehydes... 

The synthesis of phosphinic peptides by a reverse sequence of P-C bond formation events (N+PC approach) is a less frequently applied strategy which may offer important diversification possibilities. In particular, an amidoalkylation condensation reaction between amides, aldehydes, and alkylphosphinic acids (the three-component Kabachnik-Fields reaction) affords in a single step the main pseudopeptidic backbone, thus facilitating fast screening of the nature of Pi position. In 1996, Chen and Coward observed that a mixture of benzyl carbamates, aldehydes, and alkylphosphinic acid 23 in AcCl can lead to Cbz-protected phosphinic pseudodipeptides 24 (Scheme 10a) [53]. This method was adjusted by Matziari et al. to the synthesis of Fmoc-protected phosphinic building blocks 25 and peptides thereof (Scheme 10b) [54]. 

Peptidomimetics in which one amide bond is replaced by a phosphinic acid (R-P(0H)(=0)-R phosphinic peptides ) are of interest as potential protease inhibitors [17-19]. These compounds have been prepared either from orthogonally protected phosphorus-containing monomers [17,18,20], or by forming the phosphorus-containing fragments on solid phase, as sketched in Figure 11.4 [19,21], Phosphinic acids have been prepared on solid phase mainly by reaction of carbon electrophiles with monoalkylphosphinates. As carbon electrophiles, acrylates, aldehydes, reactive alkyl halides, or a, 3-unsaturated ketones can be used. 

Two recently developed coupling reactions of an alkene (R1CH2CH=CH2), an aldehyde (R2CHO), and a silyl triflate (R33SiOTf) yield an allylic (66) or homoallylic (67) alcohol (in protected form).188 Employing nickel-phosphine catalysts, either product can be selected by small changes in the phosphine component. A mechanism distinct from that of Lewis acid-catalysed carbonyl-ene reactions is proposed and discussed. 

These nucleophilic reagents react with most common electrophiles such as organohalides, tosylates, aldehydes, ketones, epoxides, and activated alkenes. It should be noted that many workers have found much higher yields if the phosphides are protected as phosphine oxide or borane anions (see Section 3). Phosphide reagents also react with activated arenes to give mixed aryl phosphines (Protocol 2). Metal phosphides therefore provide an alternative, complementary tertiary phosphine synthesis to the electrophilic routes outlined in Section 2.1. 

Asymmetric hydroformylation of N-protected 2,5-dihydro-l/7-pyrroles 1190 catalyzed by rhodium(l) complexes of chiral phosphine-phosphite ligands 1189 afforded the corresponding optically active aldehydes 1191 as single products with ee 47-92% (R = BOG, 98%, 47% ee (R) and R = Ac, 92%, 66% ee (-)) (Equation 270) <1997MI175>. 

The Pd-catalyzed AAA reaction of bromophenol 54 and allylic carbonate 72 in the presence of chiral bis-phosphine ligand 73 gave aryl ether 74 in 72% yield with 88% ee (Scheme 15). After protection of the aldehyde function in 74 as a dimethyl... 

The completion of the total synthesis of FK506 (1) is described in Scheme 34. The coupling of the two segments 222 and 230 was accomplished by phosphine oxide-mediated HW olefination. The addition of 222 to 230 afforded a separable 1 1 mixture, and the less polar diastereomer yielded ( )-olefin 231. After selective removal of the TES group, esterification of 231 with (S)-A-Boc-pipecolic acid (232) under DCC-DMAP conditions followed by dethioacetalization afforded aldehyde 233. The Evans aldol reaction of 233 with 218d installed a glycolate unit, and hydrolysis of the chiral auxiliary followed by TES protection provided 234 ready for macrocyclization. The macrolactamization of 234 was effectively... 

An unusual 1,4-oxaphosphorinane was obtained (Scheme 15) initially from isopropyl phosphinate which was transformed, in three steps via (308) into the aldehyde (309) removal of the isopropylidene protection and acetylation gave a stereoisomeric mixture of (311) with variable amounts of the acyclic enol acetates (310). Removal of the silyl protection from the former product, and acetylation gave the compounds (312) epimeric at phosphorus one component was isolated in crystalline form and its structure confirmed by X-ray diffraction examination. ... 

Much attention has been devoted to the conversion of aldehydes into the trimethylsilyl ethers of (a-hydroxyalkyl)-phosphonic acids 210 or analogous -phosphinic acids, or of the corresponding (a-hydroxyalkyl)phosphonic diamides 211 by the use of dialkyl trimethylsilyl phosphite or Me3SiOP(NEt2)2 (or other phosphorodiamidite) It is a reaction which occurs very readily, even at room temperature, and the ready methanolytic or hydrolytic removal of the silyl protecting group makes the procedure an attractive alternative to the direct synthesis of the (a-hydroxyalkyl)phosphonic acids from dialkyl hydrogenphosphonates and carbonyl compounds. Silyl-protected hydroxy-phosphonic and -phosphinic acid derivatives are useful for further synthetic development. ... 

The reactions of phosphorous acid are paralleled still further by the additions of hypophosphorus acid to azomethines in practice, mixtures of amines and carbonyl reactants may be employed ", but the drawbacks to the procedure found for the synthesis of aminoalkylphosphonic acids may well apply here also. In a valuable publication, Dingwall and coworkers described the syntheses of (aminoalkyl)phosphinic acid analogues of many of the naturally occurring aminocarboxylic acids by the simple treatment of the benzyhydrylimine derivatives of the necessary amines with hypophosphorous acid, formed in situ when diphenylmethylammonium hypophosphite is treated with an appropriate aldehyde this step is followed by removal of the A -protection with 48% aqueous HBr, with 18% aqueous HCl or with trifluoroacetic acid in boiling methoxybenzene any second amino group was protected as the phthalimido derivative. 

The use of asymmetric carbonyl reductions for the control of the configuration at C-5 and/or C-6 in natural dihydropyrones is scarce (26, 37]. Among the few examples is one enantioselective synthesis of (-)-massoialactone (37aj based on the asymmetric hydrogenation of b-oxoester 97 in the presence of a mthenium-chiral phosphine complex (Scheme 2.19). The resulting fi-hydroxyester 98, obtained in >99% enantiomeric excess, was converted into the corresponding protected aldehyde 99, which... 

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