Deprotection palladium

Imidazo[4,5-/ ]pyridines are exclusively hydroxylated in the imidazole ring however, no yield was reported (Equation 3) . N-Alkylation, N-deprotection, palladium-catalyzed cross-coupling, and thionation of imidazo[4,5-/ ]pyridines were reviewed in <1996CHEC-II(7)283>. 

Another protecting group of amines is 1-isopropylallyloxycarbonyl, which can be deprotected by decarboxylation and a /3-elimination reaction of the (tt-l-isopropylallyl)palladium intermediate under neutral conditions, generating CO2 and 4-methyl-1,3-pentadiene. The method can be applied to the amino acid 674 and peptides without racemization[437]. 

In a related study, the precursor 41 could be amiulated either by irradiation or by treatment with palladium acetate in acetic acid to provide indolocarbazoles 42 and 43 in yields of 37% and 55%, respectively (Scheme 8). Both products were eventually deprotected efficiently to give 44 and transformed further under reductive conditions to staurosporinone 45, the aglycone of 8, Alternatively, a shorter route encompassing deprotection of 41, followed by cychzation by irradiation in the presence of iodine and subsequent reduction, gave 45 in an even better overall yield (98T6909). 

A distinguishing feature of the Nicolaou synthesis of rapamycin is the use of a palladium-mediated tandem inter-/intramolecular Stille coupling to construct rapamycin s 31-membered macrolide ring and conjugated triene moiety. This maneuver was unprecedented in the macrolide field,9 and it can be applied to a fully deprotected seco substrate (vide infra). 

Scheme 3) [30]. The pY + 3 diversity alcohols (Ri)-OI I (Fig. 15) were attached to the template through a Mitsunobu coupling to provide ether derivatives of 16. Palladium-mediated Alloc deprotection followed by amide formation using the phosphate-ester-containing diversity acids (R2)-C02H provided the fully coupled resin-bound products of 17. Cleavage from the resin with 95% TFA/H20, which also afforded benzyl phosphate deprotection, followed by reversed-phase (RP) semipreparative... 

Once the reaction kinetics were determined and the appropriate reaction conditions were set, the analyses of different catalysts was launched. A variety of different heterogeneous catalysts were evaluated for the deprotection of 20 mmol Cbz-glycine (1, R=-H). Catalysts composed of different platinum group metals supported on activated carbon were evaluated as well as palladium supported on alumina. Figure 5 confirms that Pd supported on activated carbon is indeed the catalyst of choice for this type of hydrogenolysis reaction. 

The removal of carbobenzyloxy (Cbz or Z) groups from amines or alcohols is of high interest in the fine chemicals, agricultural and pharmaceutical industry. Palladium on activated carbon is the catalyst of choice for these deprotection reactions. Nitrogen containing modifiers are known to influence the selectivity for certain deprotection reactions. In this paper we show the rate accelerating effect of certain N-containing modifiers on the deprotection of carbobenzyloxy protected amino acids in the presence of palladium on activated carbon catalysts. The experiments show that certain modifiers like pyridine and ethylenediamine increase the reaction rate and therefore shorten the reaction times compared to non-modified palladium catalysts. Triethylamine does not have an influence on the rate of deprotection. 

Synthesis of isomeric chiral protected (63 )-6-amino-hexahydro-2,7-dioxopyrazolo[l,2- ]pyrazole-l-carboxylic acid 280 is shown in Scheme 36. Crude vinyl phosphonate 275, obtained by treatment of diethyl allyloxycarbonylmethyl-phosphonate with acetic anhydride and tetramethyl diaminomethane as a formaldehyde equivalent, was used in the Michael addition to chiral 4-(f-butoxycarbonylamino)pyrazolidin-3-one 272. The Michael addition is run in dichloro-methane followed by addition of f-butyl oxalyl chloride and 2 equiv of Huning s base in the same pot to provide 276 in 58% yield. The allyl ester is deprotected using palladium catalysis to give the corresponding acid 277, which is... 

The readily prepared immobilized phosphoramidite could be used to efficiently synthesize oligodeoxyribonucleotides with modified thymidine residues. Whereas the effect of microwave irradiation on the deprotection by exposing the strand to tet-rakis-triphenylphosphine palladium(O) and diethylammonium bicarbonate was only small using dichloromethane as solvent, complete removal of the alloc group was achieved in N,N-dimethylformamide within 10 min at 80 °C (Scheme 7.30). After the reaction, the solid-supported product was washed with N,N-dimethylformamide and dichloromethane and dried, before being subjected to acylation. The coupling... 

The progress of the deprotection and acylation was monitored by recording MALDI-TOF spectra of the crude products. In this particular case, microwave irradiation not only accelerated the palladium(0)-catalyzed deprotection and the ensuing amide formation, but also led to cleaner reactions. Apparently, the microwave heating breaks up any hindrance to the reaction sites such that the intermolecular reaction sites prevail and competing reactions are suppressed [46]. 

As part of the same study, the capacity of this novel resin to act as an allyl cation scavenger was demonstrated in a palladium-catalyzed O-alloc deprotection of O-alloc benzyl alcohol (Scheme 7.107) [125], Benzyl alcohol was obtained in high yield with only trace amounts of by-product, thereby eliminating the need for further purification. The resulting C-allylation of the resin was evident from the presence of C-allyl signals in the relevant MAS-probe 1H NMR spectrum. 

Scheme 7.107 Palladium-catalyzed deprotection of O-alloc benzyl alcohol employing the scavenging resin CHD-SR.

The palladium-catalysed decarboxylative carbonylation of 5-vinyloxazolidin-2-ones 218 caused, unexpectedly, a ring enlargement process to 5-lactams 219 <00JA2944>. The conjugate addition of 4-phenyloxazolidin-2-one to a nitroalkene was used for the synthesis of diastereoisomers of dethiobiotin <00EJO3575>. Attempted deprotection of the O-TBDMS... 

Allylic amination is important for the solid-phase organic synthesis.15 The solid-phase allylic aminations are devised into the G-N bond formation on solid support and the deprotection of allyl ethers. As a novel deprotection method, the palladium-catalyzed cyclization-cleavage strategy was reported by Brown et al. (Equation (4)).15a,15b The solid-phase synthesis of several pyrrolidines 70 was achieved by using palladium-catalyzed nucleophilic cleavage of allylic linkages of 69. 

O Dangles, F Guibe, G Balavoine, S Lavielle. A Marquet. Selective cleavage of the allyl and allyloxycarbonyl groups through palladium-catalyzed hydrostannolysis with tributyltin hydride. Application of the selective protection-deprotection of amino acid derivatives and in peptide synthesis. J Org Chem 52, 4984, 1987. 

N-ALKYLATION DURING PALLADIUM-CATALYZED HYDROGENOLYTIC DEPROTECTION AND ITS SYNTHETIC APPLICATION... 

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