By the Dess-martin periodinane

A vanety of secondary alcohols with terminal trifluoromethyl group are oxidized by the Dess-Martin periodinane reagent [52 57] (equation 48)... 

A variety of a-fluorinated /1-hydroxy esters are oxidized by the Dess-Martin periodinane reagent at room temperature to give the /J-oxo carboxylate 5 in 76 90 % yield.159 No influence of the number of a-fluorine atoms on the yields has been found nor are the yields influenced by very different -substituents (for the procedure see Section 3.2.1.1.2.).159... 

A vanety of secondary alcohols with terminal trifluoromethyl group are oxidized by the Dess-Martin periodinane reagent [52 53] (equation 48) Conversion of l,6-anhydro-4-0-benzyl-2 deoxy 2-fluoro-p-D-glucopyranose to the corresponding oxo derivative is earned out by ruthenium tetroxide generated in situ from ruthenium dioxide [54] (equation 49)... 

From a non-c ohydrate precursor, Davis and Qi achieved the asymmetric synthesis of 2-deoxy-2-fluoro- iylo-D-pyranose (9) (Figure 7) and 2-deoxy-2-fluoro-lyxo-L-pyranose (13). TTie key reaction was the highly diastereoselective fluorination of a chiral enolate using the electrophilic fluorinating agent, N-fluoro(benzenesulfonimide) (NFSi). In another study by Davis (14), the use of a chiral oxazolidinone adjuvant and fluorination with NFSi led to the chiral fluorohydrin 10 (>97% ee), which was oxidized by the Dess-Martin periodinane procedure to the non-racemic a- fluoroaldehyde 11 (94% ee). Conversion of 11 in four steps provided l,2,3-tri-0-acetyl-4-deoxy-4-fluoro-D-arabinopyranose (12) as a 1 1 mixture of anomers which could not be separated by flash chromatography. 

The Dess-Martin periodinane ( DMP ) reagent, U,l-tris(acetyloxy)-l,l-dihydro-l,2-benziodoxol-3(l//)-one, has also been used in several complex syntheses for the oxidation of primary or secondary alcohols to aldehydes or ketones, respectively (e.g., M. Nakatsuka, 1990). It is prepared from 2-iodobenzoic add by oxidation with bromic add and acetylation (D.a Dess, 1983). 

Wipf and Miller have reported side-chain oxidation of 3-hydroxy amides with the Dess-Martin periodinane, followed by immediate cyclodehydration with triphenylphosphine-iodine, which provides a versatile extension of the Robinson-Gabriel method to substituted oxazoles. Application of this method was used to prepare the oxazole fragment 10 in 55% overall yield from 3-hydroxy amide 8. 

H2O, EtOH, 90°C) can be overcome by using the Dess-Martin periodinane (DMP) (CH2CI2, 25°C) <06JOC8261>. The reaction probably proceeds via thiyl radical 50, which undergoes 1,5-homolytic radical cyclization followed by aromatization of radical 51 to give 2-arylthiazole 52. 

A very unusual Nazarov cyclization of propargyl vinyl ketones has been reported by Hashmi et al. (Eq. 13.16) [18]. Propargyl alcohol 50 was oxidized to ketone 51 with the Dess-Martin periodinane. Attempts to purify 51 by column chromatography on silica gel led to cyclopentenone 53 in 59% isolated yield. This suggests that the solid support catalyzed the isomerization of 51 to allenyl vinyl ketone 52, which was not isolated, but which underwent spontaneous cyclization to 53. This result is consistent with earlier observations of the great ease with which allenyl vinyl ketones undergo the Nazarov reaction (cf. 8, Eq. 13.2). 

Following a similar strategy, an ingenious mixed resin bed quench and purification strategy was devised for the Dess-Martin periodinane mediated conversion of alcohols to carbonyls. This hypervalent iodine oxidant was viewed as containing an inherent masked carboxylic acid functionality that was revealed at the end of the reaction (Species (11) Scheme 2.30). Therefore purification was easily achieved by treatment of the reaction mixture with a mixed-resin bed containing both a thiosulfate resin and a polymeric base. The thiosulfate polymer was used to reduce excess hypervalent iodine lodine(V) and (III) oxidation states species to 2-iodoben-zoic acid (11), which was in turn scavenged by the polymeric base [51]. 

The purity of the Dess-Martin periodinane (2) was assayed by treatment of 2 (1 equiv) with an excess of benzyl alcohol (2 equiv) in methylene chloride (CH2CI2) followed by analysis of the reaction mixture for benzaldehyde by capillary vapor phase chromatography (15-m fused silica capillary column, Durawax DX3 stationary phase, 120°C). After correction for response factors, the purity was established to be >95%. 

The Dess-Martin periodinane [1,1,1 -triacetoxy-1,1 -dihydro-1,2-benziodoxol-3(1H)-one (2)) is one of several 12-1-5 periodinane species developed by J. C. Martin... 

The first step in the overall synthetic scheme (Scheme 6) is the condensation of an appropriate carboxylic acid with trifluoroacetaldehyde. The carboxylic acid is chosen to impart specificity for the target enzyme. In one example,[28 the dianion of cyclohexanepropanoic acid (29) was formed by the addition of LDA and then quickly condensed with trifluoroacetaldehyde to form the p-hydroxy acid 30 as a racemic mixture of erythro- and threo-isomers. The p-hydroxy acid 30 is then protected with TBDMSOTf forming 31. Diphenyl phosphorazidate, TEA, and benzyl alcohol were then utilized in a Curtius rearrangement of the protected alcohol 31, which proceeds through an isocyanate intermediate that yields the protected amino alcohol 32 upon reaction with benzyl alcohol. In order for this step to occur at an appreciable rate, a second equivalent of triethylamine had to be added. The amino alcohol 32 was then deprotected and coupled with Boc-Phe-Leu-OH to give the trifluoromethyl alcohol 33, which was oxidized to the corresponding trifluoromethyl ketone 34 as a 1 1.2 mixture of diastereomers using the Dess-Martin periodinane procedure. Thus far, the compound shown in Scheme 6 is the only compound that has been synthesized by this method, but it is reasonable to assume that many other similar fluoro ketones can be produced by this scheme. 

A method utilizing the Dess-Martin periodinane[12 for the conversion of a peptide a-hy-droxy ester into the corresponding a-oxo ester was reported by Burkhart et al.[8l The final product, peptide a-oxo ester, obtained in this process contains a mixture of enantiomers at C2 in PI of the peptide. The optical impurity arises not from the oxidation reaction but the synthesis of one of the intermediates, 2-hydroxy-3-nitro-4-phenylbutanoic acid, which generates four diastereomers at two adjacent chiral carbons. This procedure is limited to the synthesis of peptide a-oxo esters with the phenylalanine residue at the PI position. A more diversified approach is achieved by using a-hydroxy- 3-amino acids 14 as the key intermediate that permits selective introduction of an amino acid residue at PI of the peptide it can also be coupled to N-protected amino acids or N-protected peptides and further transformations give a-oxo esters 19, a-oxo acids 20, and a-oxoamides 22 (Scheme 4)J3 61... 

The Dess-Martin periodinane 8 is also able to oxidize aromatic compounds to the corresponding quinones. The presence of water is important and, starting from anilides 42 substituted in the 2-position, the rare class of ortho-imido-quinones 43 is accessible, Scheme 21. It has been shown that compounds of type 43 are interesting building blocks and can lead to polycyclic molecules of diverse molecular architecture [95,96]. They can undergo subsequent Diels-Alder reactions and intramolecular versions have been used for a rapid access to natural products and for synthesis of scaffolds for further manipulation.para-Quinones 45 are also easily accessible, however, only in modest yields by reacting 4-sub-stituted anilines 44 under the same reaction conditions, Scheme 21 [97]. 

First an iodination of the alcohol is accomplished by treatment with iodine in presence of Ph3P and imidazole.13 Successive iodide displacement with the nucleophilic vinyl cuprate derived from 2-lithiopropene (2-bromopropene, tBuLi) finished the emplacement of the C-l side chain. Cleavage of the TPS ether by tetrabutylammonium fluoride and subsequent oxidation with the Dess-Martin periodinane provides aldehyde 9. 

A number of special oxidation methods have also been applied to partially protected aldoses. The Dess-Martin periodinane, l,l,l-triacetoxy-l,l-dihydro-l,2-benziodoxol-3(l//)-one [31], is a mild and efficient oxidant compatible with carbohydrate protecting groups [25]. However, it is also quite expensive and should only be used if the other procedures fail. The hydrogen transfer reactions catalyzed by 5% of RhH(PPh3)4 can also be applied to partially protected aldoses [8]. 

Jenkins, N. E., Ware, R. W., Jr., Atkinson, R. N., King, S. B. Generation of acyl nitroso compounds by the oxidation of N-acyl hydroxylamines with the Dess-Martin periodinane. Synth. Common. 2000, 30, 947-953. 

The Dess-Martin periodinane reagent (20) is prepared by oxidation of onAo-iodobenzoic acids, followed by acetylation (Equation (5)) <83JOC4i55>. 

Cyclohexylpropionic acid was deprotonated with 2.2 equivalent of lithium diisopropylamide and the resulting dianion was condensed with trifluoroacetaldehyde which was generated in situ from its ethyl hemiacetal. The P-hydroxy acid 1 was isolated as a racemic mixture of two diastereomers. Silylation with tert-butyldimethylsilyl triflate was followed by ester hydrolysis to give the acid 2. A Curtius rearrangement with diphenylphosphoryl azide in the presence of benzyl alcohol afforded the protected P-amino alcohol 3 which was used in the preparation of the trifluoromethyl alcohol I. Oxidation using the Dess-Martin periodinane reagent (9) yielded the trifluoromethyl ketone II as a mixture of diastereomers. The signal for the carbonyl carbon in the 13C-NMR spectrum of this ketone appeared at 94.5 ppm and this is consistent with the hydrated form of the trifluoromethyl ketone. 

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